Public Key Infrastructure (PKI) is a method to validate the authenticity of an otherwise unknown entity across untrusted networks. PKI works by establishing a chain of trust, rather than trusting each individual host or entity explicitly. In order for a certificate presented by a remote entity to be trusted, that certificate must present a complete chain of certificates that can be validated using the root certificate of a Certificate Authority (CA) that is trusted by the local machine.
Establishing trust with a CA involves validating things like company address, ownership, contact information, etc., and ensuring that the CA has followed best practices, such as undergoing periodic security audits by independent investigators and maintaining an always available certificate revocation list. This is well outside the scope of BLFS (as it is for most Linux distributions). The certificate store provided here is taken from the Mozilla Foundation, who have established very strict inclusion policies described here.
This package is known to build and work properly using an LFS-9.1 platform.
Download (HTTP): https://github.com/djlucas/make-ca/releases/download/v1.5/make-ca-1.5.tar.xz
Download size: 32 KB
Download MD5 Sum: 0d50d9e0c9ebd6059fe4116353f2d5be
Estimated disk space required: 6.6 MB (with all runtime deps)
Estimated build time: 0.1 SBU (with all runtime deps)
p11-kit-0.23.20 (required at runtime to generate certificate stores from trust anchors)
Java-12.0.2 or OpenJDK-12.0.2 (to generate a java PKCS#12 store), and NSS-3.50 (to generate a shared NSSDB)
User Notes: http://wiki.linuxfromscratch.org/blfs/wiki/make-ca
The make-ca script will download
and process the certificates included in the certdata.txt
file for use as trust anchors for
the p11-kit-0.23.20 trust module. Additionally,
it will generate system certificate stores used by BLFS
applications (if the recommended and optional applications are
present on the system). Any local certificates stored in
/etc/ssl/local
will be imported to
both the trust anchors and the generated certificate stores
(overriding Mozilla's trust). Additionally, any modified trust
values will be copied from the trust anchors to /etc/ssl/local
prior to any updates, preserving
custom trust values that differ from Mozilla when using the
trust utility from
p11-kit to operate on the trust
store.
To install the various certificate stores, first install the
make-ca script into the correct
location. As the root
user:
make install && install -vdm755 /etc/ssl/local
As the root
user, after installing
p11-kit-0.23.20, download the certificate
source and prepare for system use with the following command:
If running the script a second time with the same version of
certdata.txt
, for instance, to add
additional stores as the requisite software is installed, add the
-r
switch to the command
line. If packaging, run make-ca
--help to see all available command line options.
/usr/sbin/make-ca -g
You should periodically update the store with the above command,
either manually, or via a cron job.
If you've installed Fcron-3.2.1 and
completed the section on periodic jobs, execute the
following commands, as the root
user, to create a weekly cron job:
install -vdm755 /etc/cron.weekly &&
cat > /etc/cron.weekly/update-pki.sh << "EOF" &&
#!/bin/bash
/usr/sbin/make-ca -g
EOF
chmod 754 /etc/cron.weekly/update-pki.sh
For most users, no additional configuration is necessary, however,
the default certdata.txt
file
provided by make-ca is obtained from the mozilla-release branch,
and is modified to provide a Mercurial revision. This will be the
correct version for most systems. There are several other variants
of the file available for use that might be preferred for one
reason or another, including the files shipped with Mozilla
products in this book. RedHat and OpenSUSE, for instance, use the
version included in NSS-3.50. Additional upstream downloads are
available at the links included in /etc/make-ca.conf.dist
. Simply copy the file to
/etc/make-ca.conf
and edit as
appropriate.
There are three trust types that are recognized by the make-ca script, SSL/TLS, S/Mime, and code
signing. For OpenSSL, these are
serverAuth
, emailProtection
, and codeSigning
respectively. If one of
the three trust arguments is omitted, the certificate is neither
trusted, nor rejected for that role. Clients that use OpenSSL or NSS encountering this certificate will present
a warning to the user. Clients using GnuTLS without p11-kit support are not aware of trusted
certificates. To include this CA into the ca-bundle.crt
, email-ca-bundle.crt
, or objsign-ca-bundle.crt
files (the GnuTLS legacy bundles), it must have the
appropriate trust arguments.
The /etc/ssl/local
directory is
available to add additional CA certificates to the system. For
instance, you might need to add an organization or government CA
certificate. Files in this directory must be in the OpenSSL trusted certificate format. To create
an OpenSSL trusted certificate
from a regular PEM encoded file, you need to add trust arguments to
the openssl command,
and create a new certificate. For example, using the CAcert roots, if you want
to trust both for all three roles, the following commands will
create appropriate OpenSSL trusted certificates (run as the
root
user after Wget-1.20.3 is
installed):
wget http://www.cacert.org/certs/root.crt && wget http://www.cacert.org/certs/class3.crt && openssl x509 -in root.crt -text -fingerprint -setalias "CAcert Class 1 root" \ -addtrust serverAuth -addtrust emailProtection -addtrust codeSigning \ > /etc/ssl/local/CAcert_Class_1_root.pem && openssl x509 -in class3.crt -text -fingerprint -setalias "CAcert Class 3 root" \ -addtrust serverAuth -addtrust emailProtection -addtrust codeSigning \ > /etc/ssl/local/CAcert_Class_3_root.pem && /usr/sbin/make-ca -r -f
Occasionally, there may be instances where you don't agree with
Mozilla's inclusion of a particular certificate authority. If you'd
like to override the default trust of a particular CA, simply
create a copy of the existing certificate in /etc/ssl/local
with different trust arguments.
For example, if you'd like to distrust the "Makebelieve_CA_Root"
file, run the following commands:
openssl x509 -in /etc/ssl/certs/Makebelieve_CA_Root.pem \ -text \ -fingerprint \ -setalias "Disabled Makebelieve CA Root" \ -addreject serverAuth \ -addreject emailProtection \ -addreject codeSigning \ > /etc/ssl/local/Disabled_Makebelieve_CA_Root.pem && /usr/sbin/make-ca -r -f
Last updated on 2020-02-15 08:54:30 -0800