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+<!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
+ "http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd"
+ [<!ENTITY mdash "&#8212;">]>
+<!--
+ - Copyright (C) 2010, 2012 Internet Systems Consortium, Inc. ("ISC")
+ -
+ - Permission to use, copy, modify, and/or distribute this software for any
+ - purpose with or without fee is hereby granted, provided that the above
+ - copyright notice and this permission notice appear in all copies.
+ -
+ - THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH
+ - REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
+ - AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT,
+ - INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
+ - LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
+ - OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ - PERFORMANCE OF THIS SOFTWARE.
+-->
+
+<!-- $Id$ -->
+
+<sect1 id="pkcs11">
+ <title>PKCS #11 (Cryptoki) support</title>
+ <para>PKCS #11 (Public Key Cryptography Standard #11) defines a
+ platform- independent API for the control of hardware security
+ modules (HSMs) and other cryptographic support devices.</para>
+ <para>BIND 9 is known to work with two HSMs: The Sun SCA 6000
+ cryptographic acceleration board, tested under Solaris x86, and
+ the AEP Keyper network-attached key storage device, tested with
+ Debian Linux, Solaris x86 and Windows Server 2003.</para>
+ <sect2>
+ <title>Prerequisites</title>
+ <para>See the HSM vendor documentation for information about
+ installing, initializing, testing and troubleshooting the
+ HSM.</para>
+ <para>BIND 9 uses OpenSSL for cryptography, but stock OpenSSL
+ does not yet fully support PKCS #11. However, a PKCS #11 engine
+ for OpenSSL is available from the OpenSolaris project. It has
+ been modified by ISC to work with with BIND 9, and to provide
+ new features such as PIN management and key by
+ reference.</para>
+ <para>The patched OpenSSL depends on a "PKCS #11 provider".
+ This is a shared library object, providing a low-level PKCS #11
+ interface to the HSM hardware. It is dynamically loaded by
+ OpenSSL at runtime. The PKCS #11 provider comes from the HSM
+ vendor, and and is specific to the HSM to be controlled.</para>
+ <para>There are two "flavors" of PKCS #11 support provided by
+ the patched OpenSSL, one of which must be chosen at
+ configuration time. The correct choice depends on the HSM
+ hardware:</para>
+ <itemizedlist>
+ <listitem>
+ <para>Use 'crypto-accelerator' with HSMs that have hardware
+ cryptographic acceleration features, such as the SCA 6000
+ board. This causes OpenSSL to run all supported
+ cryptographic operations in the HSM.</para>
+ </listitem>
+ <listitem>
+ <para>Use 'sign-only' with HSMs that are designed to
+ function primarily as secure key storage devices, but lack
+ hardware acceleration. These devices are highly secure, but
+ are not necessarily any faster at cryptography than the
+ system CPU &mdash; often, they are slower. It is therefore
+ most efficient to use them only for those cryptographic
+ functions that require access to the secured private key,
+ such as zone signing, and to use the system CPU for all
+ other computationally-intensive operations. The AEP Keyper
+ is an example of such a device.</para>
+ </listitem>
+ </itemizedlist>
+ <para>The modified OpenSSL code is included in the BIND 9 release,
+ in the form of a context diff against the latest verions of
+ OpenSSL. OpenSSL 0.9.8 and 1.0.0 are both supported; there are
+ separate diffs for each version. In the examples to follow,
+ we use OpenSSL 0.9.8, but the same methods work with OpenSSL 1.0.0.
+ </para>
+ <note>
+ The latest OpenSSL versions at the time of the BIND release
+ are 0.9.8s and 1.0.0f.
+ ISC will provide an updated patch as new versions of OpenSSL
+ are released. The version number in the following examples
+ is expected to change.</note>
+ <para>
+ Before building BIND 9 with PKCS #11 support, it will be
+ necessary to build OpenSSL with this patch in place and inform
+ it of the path to the HSM-specific PKCS #11 provider
+ library.</para>
+ <para>Obtain OpenSSL 0.9.8s:</para>
+ <screen>
+$ <userinput>wget <ulink>http://www.openssl.org/source/openssl-0.9.8s.tar.gz</ulink></userinput>
+</screen>
+ <para>Extract the tarball:</para>
+ <screen>
+$ <userinput>tar zxf openssl-0.9.8s.tar.gz</userinput>
+</screen>
+ <para>Apply the patch from the BIND 9 release:</para>
+ <screen>
+$ <userinput>patch -p1 -d openssl-0.9.8s \
+ &lt; bind9/bin/pkcs11/openssl-0.9.8s-patch</userinput>
+</screen>
+ <note>(Note that the patch file may not be compatible with the
+ "patch" utility on all operating systems. You may need to
+ install GNU patch.)</note>
+ <para>When building OpenSSL, place it in a non-standard
+ location so that it does not interfere with OpenSSL libraries
+ elsewhere on the system. In the following examples, we choose
+ to install into "/opt/pkcs11/usr". We will use this location
+ when we configure BIND 9.</para>
+ <sect3>
+ <!-- Example 1 -->
+ <title>Building OpenSSL for the AEP Keyper on Linux</title>
+ <para>The AEP Keyper is a highly secure key storage device,
+ but does not provide hardware cryptographic acceleration. It
+ can carry out cryptographic operations, but it is probably
+ slower than your system's CPU. Therefore, we choose the
+ 'sign-only' flavor when building OpenSSL.</para>
+ <para>The Keyper-specific PKCS #11 provider library is
+ delivered with the Keyper software. In this example, we place
+ it /opt/pkcs11/usr/lib:</para>
+ <screen>
+$ <userinput>cp pkcs11.GCC4.0.2.so.4.05 /opt/pkcs11/usr/lib/libpkcs11.so</userinput>
+</screen>
+ <para>This library is only available for Linux as a 32-bit
+ binary. If we are compiling on a 64-bit Linux system, it is
+ necessary to force a 32-bit build, by specifying -m32 in the
+ build options.</para>
+ <para>Finally, the Keyper library requires threads, so we
+ must specify -pthread.</para>
+ <screen>
+$ <userinput>cd openssl-0.9.8s</userinput>
+$ <userinput>./Configure linux-generic32 -m32 -pthread \
+ --pk11-libname=/opt/pkcs11/usr/lib/libpkcs11.so \
+ --pk11-flavor=sign-only \
+ --prefix=/opt/pkcs11/usr</userinput>
+</screen>
+ <para>After configuring, run "<command>make</command>"
+ and "<command>make test</command>". If "<command>make
+ test</command>" fails with "pthread_atfork() not found", you forgot to
+ add the -pthread above.</para>
+ </sect3>
+ <sect3>
+ <!-- Example 2 -->
+ <title>Building OpenSSL for the SCA 6000 on Solaris</title>
+ <para>The SCA-6000 PKCS #11 provider is installed as a system
+ library, libpkcs11. It is a true crypto accelerator, up to 4
+ times faster than any CPU, so the flavor shall be
+ 'crypto-accelerator'.</para>
+ <para>In this example, we are building on Solaris x86 on an
+ AMD64 system.</para>
+ <screen>
+$ <userinput>cd openssl-0.9.8s</userinput>
+$ <userinput>./Configure solaris64-x86_64-cc \
+ --pk11-libname=/usr/lib/64/libpkcs11.so \
+ --pk11-flavor=crypto-accelerator \
+ --prefix=/opt/pkcs11/usr</userinput>
+</screen>
+ <para>(For a 32-bit build, use "solaris-x86-cc" and
+ /usr/lib/libpkcs11.so.)</para>
+ <para>After configuring, run
+ <command>make</command> and
+ <command>make test</command>.</para>
+ </sect3>
+ <sect3>
+ <!-- Example 3 -->
+ <title>Building OpenSSL for SoftHSM</title>
+ <para>SoftHSM is a software library provided by the OpenDNSSEC
+ project (http://www.opendnssec.org) which provides a PKCS#11
+ interface to a virtual HSM, implemented in the form of encrypted
+ data on the local filesystem. It uses the Botan library for
+ encryption and SQLite3 for data storage. Though less secure
+ than a true HSM, it can provide more secure key storage than
+ traditional key files, and can allow you to experiment with
+ PKCS#11 when an HSM is not available.</para>
+ <para>The SoftHSM cryptographic store must be installed and
+ initialized before using it with OpenSSL, and the SOFTHSM_CONF
+ environment variable must always point to the SoftHSM configuration
+ file:</para>
+ <screen>
+$ <userinput> cd softhsm-1.3.0 </userinput>
+$ <userinput> configure --prefix=/opt/pkcs11/usr </userinput>
+$ <userinput> make </userinput>
+$ <userinput> make install </userinput>
+$ <userinput> export SOFTHSM_CONF=/opt/pkcs11/softhsm.conf </userinput>
+$ <userinput> echo "0:/opt/pkcs11/softhsm.db" > $SOFTHSM_CONF </userinput>
+$ <userinput> /opt/pkcs11/usr/bin/softhsm --init-token 0 --slot 0 --label softhsm </userinput>
+</screen>
+ <para>SoftHSM can perform all cryptographic operations, but
+ since it only uses your system CPU, there is no need to use it
+ for anything but signing. Therefore, we choose the 'sign-only'
+ flavor when building OpenSSL.</para>
+ <screen>
+$ <userinput>cd openssl-0.9.8s</userinput>
+$ <userinput>./Configure linux-x86_64 -pthread \
+ --pk11-libname=/opt/pkcs11/usr/lib/libpkcs11.so \
+ --pk11-flavor=sign-only \
+ --prefix=/opt/pkcs11/usr</userinput>
+</screen>
+ <para>After configuring, run "<command>make</command>"
+ and "<command>make test</command>".</para>
+ </sect3>
+ <para>Once you have built OpenSSL, run
+ "<command>apps/openssl engine pkcs11</command>" to confirm
+ that PKCS #11 support was compiled in correctly. The output
+ should be one of the following lines, depending on the flavor
+ selected:</para>
+ <screen>
+ (pkcs11) PKCS #11 engine support (sign only)
+</screen>
+ <para>Or:</para>
+ <screen>
+ (pkcs11) PKCS #11 engine support (crypto accelerator)
+</screen>
+ <para>Next, run
+ "<command>apps/openssl engine pkcs11 -t</command>". This will
+ attempt to initialize the PKCS #11 engine. If it is able to
+ do so successfully, it will report
+ <quote><literal>[ available ]</literal></quote>.</para>
+ <para>If the output is correct, run
+ "<command>make install</command>" which will install the
+ modified OpenSSL suite to
+ <filename>/opt/pkcs11/usr</filename>.</para>
+ </sect2>
+ <sect2>
+ <title>Building BIND 9 with PKCS#11</title>
+ <para>When building BIND 9, the location of the custom-built
+ OpenSSL library must be specified via configure.</para>
+ <sect3>
+ <!-- Example 4 -->
+ <title>Configuring BIND 9 for Linux with the AEP Keyper</title>
+ <para>To link with the PKCS #11 provider, threads must be
+ enabled in the BIND 9 build.</para>
+ <para>The PKCS #11 library for the AEP Keyper is currently
+ only available as a 32-bit binary. If we are building on a
+ 64-bit host, we must force a 32-bit build by adding "-m32" to
+ the CC options on the "configure" command line.</para>
+ <screen>
+$ <userinput>cd ../bind9</userinput>
+$ <userinput>./configure CC="gcc -m32" --enable-threads \
+ --with-openssl=/opt/pkcs11/usr \
+ --with-pkcs11=/opt/pkcs11/usr/lib/libpkcs11.so</userinput>
+</screen>
+ </sect3>
+ <sect3>
+ <!-- Example 5 -->
+ <title>Configuring BIND 9 for Solaris with the SCA 6000</title>
+ <para>To link with the PKCS #11 provider, threads must be
+ enabled in the BIND 9 build.</para>
+ <screen>
+$ <userinput>cd ../bind9</userinput>
+$ <userinput>./configure CC="cc -xarch=amd64" --enable-threads \
+ --with-openssl=/opt/pkcs11/usr \
+ --with-pkcs11=/usr/lib/64/libpkcs11.so</userinput>
+</screen>
+ <para>(For a 32-bit build, omit CC="cc -xarch=amd64".)</para>
+ <para>If configure complains about OpenSSL not working, you
+ may have a 32/64-bit architecture mismatch. Or, you may have
+ incorrectly specified the path to OpenSSL (it should be the
+ same as the --prefix argument to the OpenSSL
+ Configure).</para>
+ </sect3>
+ <sect3>
+ <!-- Example 6 -->
+ <title>Configuring BIND 9 for SoftHSM</title>
+ <screen>
+$ <userinput>cd ../bind9</userinput>
+$ <userinput>./configure --enable-threads \
+ --with-openssl=/opt/pkcs11/usr \
+ --with-pkcs11=/opt/pkcs11/usr/lib/libpkcs11.so</userinput>
+</screen>
+ </sect3>
+ <para>After configuring, run
+ "<command>make</command>",
+ "<command>make test</command>" and
+ "<command>make install</command>".</para>
+ <para>(Note: If "make test" fails in the "pkcs11" system test, you may
+ have forgotten to set the SOFTHSM_CONF environment variable.)</para>
+ </sect2>
+ <sect2>
+ <title>PKCS #11 Tools</title>
+ <para>BIND 9 includes a minimal set of tools to operate the
+ HSM, including
+ <command>pkcs11-keygen</command> to generate a new key pair
+ within the HSM,
+ <command>pkcs11-list</command> to list objects currently
+ available, and
+ <command>pkcs11-destroy</command> to remove objects.</para>
+ <para>In UNIX/Linux builds, these tools are built only if BIND
+ 9 is configured with the --with-pkcs11 option. (NOTE: If
+ --with-pkcs11 is set to "yes", rather than to the path of the
+ PKCS #11 provider, then the tools will be built but the
+ provider will be left undefined. Use the -m option or the
+ PKCS11_PROVIDER environment variable to specify the path to the
+ provider.)</para>
+ </sect2>
+ <sect2>
+ <title>Using the HSM</title>
+ <para>First, we must set up the runtime environment so the
+ OpenSSL and PKCS #11 libraries can be loaded:</para>
+ <screen>
+$ <userinput>export LD_LIBRARY_PATH=/opt/pkcs11/usr/lib:${LD_LIBRARY_PATH}</userinput>
+</screen>
+ <para>When operating an AEP Keyper, it is also necessary to
+ specify the location of the "machine" file, which stores
+ information about the Keyper for use by PKCS #11 provider
+ library. If the machine file is in
+ <filename>/opt/Keyper/PKCS11Provider/machine</filename>,
+ use:</para>
+ <screen>
+$ <userinput>export KEYPER_LIBRARY_PATH=/opt/Keyper/PKCS11Provider</userinput>
+</screen>
+ <!-- TODO: why not defined at compile time? -->
+ <para>These environment variables must be set whenever running
+ any tool that uses the HSM, including
+ <command>pkcs11-keygen</command>,
+ <command>pkcs11-list</command>,
+ <command>pkcs11-destroy</command>,
+ <command>dnssec-keyfromlabel</command>,
+ <command>dnssec-signzone</command>,
+ <command>dnssec-keygen</command>(which will use the HSM for
+ random number generation), and
+ <command>named</command>.</para>
+ <para>We can now create and use keys in the HSM. In this case,
+ we will create a 2048 bit key and give it the label
+ "sample-ksk":</para>
+ <screen>
+$ <userinput>pkcs11-keygen -b 2048 -l sample-ksk</userinput>
+</screen>
+ <para>To confirm that the key exists:</para>
+ <screen>
+$ <userinput>pkcs11-list</userinput>
+Enter PIN:
+object[0]: handle 2147483658 class 3 label[8] 'sample-ksk' id[0]
+object[1]: handle 2147483657 class 2 label[8] 'sample-ksk' id[0]
+</screen>
+ <para>Before using this key to sign a zone, we must create a
+ pair of BIND 9 key files. The "dnssec-keyfromlabel" utility
+ does this. In this case, we will be using the HSM key
+ "sample-ksk" as the key-signing key for "example.net":</para>
+ <screen>
+$ <userinput>dnssec-keyfromlabel -l sample-ksk -f KSK example.net</userinput>
+</screen>
+ <para>The resulting K*.key and K*.private files can now be used
+ to sign the zone. Unlike normal K* files, which contain both
+ public and private key data, these files will contain only the
+ public key data, plus an identifier for the private key which
+ remains stored within the HSM. The HSM handles signing with the
+ private key.</para>
+ <para>If you wish to generate a second key in the HSM for use
+ as a zone-signing key, follow the same procedure above, using a
+ different keylabel, a smaller key size, and omitting "-f KSK"
+ from the dnssec-keyfromlabel arguments:</para>
+ <screen>
+$ <userinput>pkcs11-keygen -b 1024 -l sample-zsk</userinput>
+$ <userinput>dnssec-keyfromlabel -l sample-zsk example.net</userinput>
+</screen>
+ <para>Alternatively, you may prefer to generate a conventional
+ on-disk key, using dnssec-keygen:</para>
+ <screen>
+$ <userinput>dnssec-keygen example.net</userinput>
+</screen>
+ <para>This provides less security than an HSM key, but since
+ HSMs can be slow or cumbersome to use for security reasons, it
+ may be more efficient to reserve HSM keys for use in the less
+ frequent key-signing operation. The zone-signing key can be
+ rolled more frequently, if you wish, to compensate for a
+ reduction in key security.</para>
+ <para>Now you can sign the zone. (Note: If not using the -S
+ option to
+ <command>dnssec-signzone</command>, it will be necessary to add
+ the contents of both
+ <filename>K*.key</filename> files to the zone master file before
+ signing it.)</para>
+ <screen>
+$ <userinput>dnssec-signzone -S example.net</userinput>
+Enter PIN:
+Verifying the zone using the following algorithms:
+NSEC3RSASHA1.
+Zone signing complete:
+Algorithm: NSEC3RSASHA1: ZSKs: 1, KSKs: 1 active, 0 revoked, 0 stand-by
+example.net.signed
+</screen>
+ </sect2>
+ <sect2>
+ <title>Specifying the engine on the command line</title>
+ <para>The OpenSSL engine can be specified in
+ <command>named</command> and all of the BIND
+ <command>dnssec-*</command> tools by using the "-E
+ &lt;engine&gt;" command line option. If BIND 9 is built with
+ the --with-pkcs11 option, this option defaults to "pkcs11".
+ Specifying the engine will generally not be necessary unless
+ for some reason you wish to use a different OpenSSL
+ engine.</para>
+ <para>If you wish to disable use of the "pkcs11" engine &mdash;
+ for troubleshooting purposes, or because the HSM is unavailable
+ &mdash; set the engine to the empty string. For example:</para>
+ <screen>
+$ <userinput>dnssec-signzone -E '' -S example.net</userinput>
+</screen>
+ <para>This causes
+ <command>dnssec-signzone</command> to run as if it were compiled
+ without the --with-pkcs11 option.</para>
+ </sect2>
+ <sect2>
+ <title>Running named with automatic zone re-signing</title>
+ <para>If you want
+ <command>named</command> to dynamically re-sign zones using HSM
+ keys, and/or to to sign new records inserted via nsupdate, then
+ named must have access to the HSM PIN. This can be accomplished
+ by placing the PIN into the openssl.cnf file (in the above
+ examples,
+ <filename>/opt/pkcs11/usr/ssl/openssl.cnf</filename>).</para>
+ <para>The location of the openssl.cnf file can be overridden by
+ setting the OPENSSL_CONF environment variable before running
+ named.</para>
+ <para>Sample openssl.cnf:</para>
+ <programlisting>
+ openssl_conf = openssl_def
+ [ openssl_def ]
+ engines = engine_section
+ [ engine_section ]
+ pkcs11 = pkcs11_section
+ [ pkcs11_section ]
+ PIN = <replaceable>&lt;PLACE PIN HERE&gt;</replaceable>
+</programlisting>
+ <para>This will also allow the dnssec-* tools to access the HSM
+ without PIN entry. (The pkcs11-* tools access the HSM directly,
+ not via OpenSSL, so a PIN will still be required to use
+ them.)</para>
+<!--
+If the PIN is not known, I believe the first time named needs the
+PIN to open a key, it'll ask you to type in the PIN, which will be
+a problem because it probably won't be running on a terminal
+-->
+ <warning>
+ <para>Placing the HSM's PIN in a text file in
+ this manner may reduce the security advantage of using an
+ HSM. Be sure this is what you want to do before configuring
+ OpenSSL in this way.</para>
+ </warning>
+ </sect2>
+ <!-- TODO: what is alternative then for named dynamic re-signing? -->
+ <!-- TODO: what happens if PIN is not known? named will log about it? -->
+</sect1>