freebsd

History

Simon J. Gerraty 0929924b61 veloader: insist on verifying .4th .lua etc When files are read from .rc or .4th, verify_file is asked to guess the severity (VE_TRY,VE_WANT,VE_MUST) Reviewed by: stevek MFC after: 1 week Sponsored by: Juniper Networks		2020-08-21 00:27:06 +00:00
..
efi	Extend libsecureboot(old libve) to obtain trusted certificates from UEFI and implement revocation	2019-03-06 06:39:42 +00:00
h	Fix pkgfs stat so it satisfies libsecureboot	2020-03-25 19:12:19 +00:00
openpgp	libsecureboot: avoid recusion in ve_trust_init	2019-07-11 22:06:59 +00:00
tests	veloader use vectx API for kernel and modules	2020-03-08 17:42:42 +00:00
brf.c
libsecureboot-priv.h	libsecureboot: allow OpenPGP support to be dormant	2019-06-26 23:33:32 +00:00
local.trust.mk	Revert that!	2020-07-19 23:56:19 +00:00
Makefile
Makefile.depend	Update Makefile.depend files	2019-12-11 17:37:53 +00:00
Makefile.depend.amd64	Update Makefile.depend files	2019-12-11 17:37:53 +00:00
Makefile.depend.host
Makefile.inc	libsecureboot: make it easier to customize trust anchors	2019-05-09 22:25:12 +00:00
Makefile.libsa.inc	Create kernel module to parse Veriexec manifest based on envs	2019-04-03 03:57:37 +00:00
pass_manifest.c	Create kernel module to parse Veriexec manifest based on envs	2019-04-03 03:57:37 +00:00
readfile.c	libsecureboot: allow OpenPGP support to be dormant	2019-06-26 23:33:32 +00:00
README.rst
vectx.c	Improve interaction of vectx and tftp	2020-04-07 16:56:34 +00:00
veopen.c	Fix pkgfs stat so it satisfies libsecureboot	2020-03-25 19:12:19 +00:00
vepcr.c	Fix pkgfs stat so it satisfies libsecureboot	2020-03-25 19:12:19 +00:00
verify_file.c	veloader: insist on verifying .4th .lua etc	2020-08-21 00:27:06 +00:00
vesigned.c
veta.c
vets.c	Fix pkgfs stat so it satisfies libsecureboot	2020-03-25 19:12:19 +00:00

README.rst

libsecureboot
*************

This library depends one way or another on verifying digital signatures.
To do that, the necessary trust anchors need to be available.

The simplest (and most attractive for an embedded system) is to
capture them in this library.

The makefile ``local.trust.mk`` is responsible for doing that.
The file provided is just an example and depends on the environment
here at Juniper.

Within Juniper we use signing servers, which apart from signing things
provide access to the necessary trust anchors.
That signing server is freely available - see
http://www.crufty.net/sjg/docs/signing-server.htm

X.509 certificates chains offer a lot of flexibility over time and are
a great solution for an embedded vendor like Juniper or even
FreeBSD.org, but are probably overkill for personal or small site use.

Setting up a CA for this is rather involved so I'll just provide a
link below to suitable tutorial below.

Using OpenPGP is much simpler.


OpenPGP
========

This is very simple to setup and use.

An RSA key pair can be generated with::

	GNUPGHOME=$PWD/.gnupg gpg --openpgp \
	--quick-generate-key --batch --passphrase '' "keyname" RSA

The use of ``GNUPGHOME=$PWD/.gnupg`` just avoids messing with personal
keyrings.
We can list the resulting key::

	GNUPGHOME=$PWD/.gnupg gpg --openpgp --list-keys

	gpg: WARNING: unsafe permissions on homedir
	'/h/sjg/openpgp/.gnupg'
	gpg: Warning: using insecure memory!
	/h/sjg/openpgp/.gnupg/pubring.kbx
	---------------------------------
	pub   rsa2048 2018-03-26 [SC] [expires: 2020-03-25]
	      AB39B111E40DD019E0E7C171ACA72B4719FD2523
	      uid           [ultimate] OpenPGPtest

The ``keyID`` we want later will be the last 8 octets
(``ACA72B4719FD2523``)
This is what we will use for looking up the key.

We can then export the private and public keys::

	GNUPGHOME=$PWD/.gnupg gpg --openpgp \
	--export --armor > ACA72B4719FD2523.pub.asc
	GNUPGHOME=$PWD/.gnupg gpg --openpgp \
	--export-secret-keys --armor > ACA72B4719FD2523.sec.asc

The public key ``ACA72B4719FD2523.pub.asc`` is what we want to
embed in this library.
If you look at the ``ta_asc.h`` target in ``openpgp/Makefile.inc``
we want the trust anchor in a file named ``t*.asc``
eg. ``ta_openpgp.asc``.

The ``ta_asc.h`` target will capture all such ``t*.asc`` into that
header.

Signatures
----------

We expect ascii armored (``.asc``) detached signatures.
Eg. signature for ``manifest`` would be in ``manifest.asc``

We only support version 4 signatures using RSA (the default for ``gpg``).


OpenSSL
========

The basic idea here is to setup a private CA.

There are lots of good tutorials on available on this topic;
just google *setup openssl ca*.
A good example is https://jamielinux.com/docs/openssl-certificate-authority/

All we need for this library is a copy of the PEM encoded root CA
certificate (trust anchor).  This is expected to be in a file named
``t*.pem`` eg. ``ta_rsa.pem``.

The ``ta.h`` target in ``Makefile.inc`` will combine all such
``t*.pem`` files into that header.

Signatures
----------

For Junos we currently use EC DSA signatures with file extension
``.esig`` so the signature for ``manifest`` would be ``manifest.esig``

This was the first signature method we used with the remote signing
servers and it ends up being a signature of a hash.
Ie. client sends a hash which during signing gets hashed again.
So for Junos we define VE_ECDSA_HASH_AGAIN which causes ``verify_ec``
to hash again.

Otherwise our EC DSA and RSA signatures are the default used by
OpenSSL - an original design goal was that a customer could verify our
signatures using nothing but an ``openssl`` binary.


Self tests
==========

If you want the ``loader`` to perform self-test of a given signature
verification method on startup (a must for FIPS 140-2 certification)
you need to provide a suitable file signed by each supported trust
anchor.

These should be stored in files with names that start with ``v`` and
have the same extension as the corresponding trust anchor.
Eg. for ``ta_openpgp.asc`` we use ``vc_openpgp.asc``
and for ``ta_rsa.pem`` we use ``vc_rsa.pem``.

Note for the X.509 case we simply extract the 2nd last certificate
from the relevant chain - which is sure to be a valid certificate
signed by the corresponding trust anchor.

--------------------
$FreeBSD$