import ca-certificates-2022.2.54-90.2.el9_0

i9c changed/i9c/ca-certificates-2022.2.54-90.2.el9_0
MSVSphere Packaging Team 2 years ago
commit be94ea7874

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This directory /etc/pki/ca-trust/extracted/edk2/ contains a
CA certificate bundle file which is automatically created
based on the information found in the
/usr/share/pki/ca-trust-source/ and /etc/pki/ca-trust/source/
directories.
The file is in the EDK2 (EFI Development Kit II) file format.
Please never manually edit the files stored in this directory,
because your changes will be lost and the files automatically overwritten,
each time the update-ca-trust command gets executed.
Please refer to the update-ca-trust(8) manual page for additional information.

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This directory /etc/pki/ca-trust is used by a system of consolidated
CA certificates.
Please refer to the update-ca-trust(8) manual page for additional information.

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This directory /etc/pki/ca-trust/extracted/ contains
CA certificate bundle files which are automatically created.
If your application isn't able to load the PKCS#11 module p11-kit-trust.so,
then you can use these files in your application to load a list of global
root CA certificates.
Please never manually edit the files stored in this directory,
because your changes will be lost and the files automatically overwritten,
each time the update-ca-trust command gets executed.
Please refer to the update-ca-trust(8) manual page for additional information.

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This directory /etc/pki/ca-trust/extracted/java/ contains
CA certificate bundle files which are automatically created
based on the information found in the
/usr/share/pki/ca-trust-source/ and /etc/pki/ca-trust/source/
directories.
All files are in the java keystore file format.
If your application isn't able to load the PKCS#11 module p11-kit-trust.so,
then you can use these files in your application to load a list of global
root CA certificates.
Please never manually edit the files stored in this directory,
because your changes will be lost and the files automatically overwritten,
each time the update-ca-trust command gets executed.
Please refer to the update-ca-trust(8) manual page for additional information.

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This directory /etc/pki/ca-trust/extracted/openssl/ contains
CA certificate bundle files which are automatically created
based on the information found in the
/usr/share/pki/ca-trust-source/ and /etc/pki/ca-trust/source/
directories.
All files are in the BEGIN/END TRUSTED CERTIFICATE file format,
as described in the x509(1) manual page.
If your application isn't able to load the PKCS#11 module p11-kit-trust.so,
then you can use these files in your application to load a list of global
root CA certificates.
Please never manually edit the files stored in this directory,
because your changes will be lost and the files automatically overwritten,
each time the update-ca-trust command gets executed.
Please refer to the update-ca-trust(8) manual page for additional information.

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This directory /etc/pki/ca-trust/extracted/pem/ contains
CA certificate bundle files which are automatically created
based on the information found in the
/usr/share/pki/ca-trust-source/ and /etc/pki/ca-trust/source/
directories.
All files are in the BEGIN/END CERTIFICATE file format,
as described in the x509(1) manual page.
Distrust information cannot be represented in this file format,
and distrusted certificates are missing from these files.
If your application isn't able to load the PKCS#11 module p11-kit-trust.so,
then you can use these files in your application to load a list of global
root CA certificates.
Please never manually edit the files stored in this directory,
because your changes will be lost and the files automatically overwritten,
each time the update-ca-trust command gets executed.
Please refer to the update-ca-trust(8) manual page for additional information.

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This directory /etc/pki/ca-trust/source/ contains CA certificates and
trust settings in the PEM file format. The trust settings found here will be
interpreted with a high priority - higher than the ones found in
/usr/share/pki/ca-trust-source/.
=============================================================================
QUICK HELP: To add a certificate in the simple PEM or DER file formats to the
list of CAs trusted on the system:
Copy it to the
/etc/pki/ca-trust/source/anchors/
subdirectory, and run the
update-ca-trust
command.
If your certificate is in the extended BEGIN TRUSTED file format,
then place it into the main source/ directory instead.
=============================================================================
Please refer to the update-ca-trust(8) manual page for additional information.

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This directory /usr/share/pki/ca-trust-source/ contains CA certificates and
trust settings in the PEM file format. The trust settings found here will be
interpreted with a low priority - lower than the ones found in
/etc/pki/ca-trust/source/ .
=============================================================================
QUICK HELP: To add a certificate in the simple PEM or DER file formats to the
list of CAs trusted on the system:
Copy it to the
/usr/share/pki/ca-trust-source/anchors/
subdirectory, and run the
update-ca-trust
command.
If your certificate is in the extended BEGIN TRUSTED file format,
then place it into the main source/ directory instead.
=============================================================================
Please refer to the update-ca-trust(8) manual page for additional information.

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#!/bin/sh
#set -vx
LCFILE=/etc/pki/ca-trust/ca-legacy.conf
LLINK=/etc/pki/ca-trust/source/ca-bundle.legacy.crt
LDEFAULT=/usr/share/pki/ca-trust-legacy/ca-bundle.legacy.default.crt
LDISABLE=/usr/share/pki/ca-trust-legacy/ca-bundle.legacy.disable.crt
# An absent value, or any unexpected value, is treated as "default".
is_disabled()
{
grep -i "^legacy *= *disable *$" $LCFILE >/dev/null 2>&1
}
do_check()
{
is_disabled
if [ $? -eq 0 ]; then
echo "Legacy CAs are set to DISABLED in file $LCFILE (affects install/upgrade)"
LEXPECT=$LDISABLE
else
echo "Legacy CAs are set to DEFAULT in file $LCFILE (affects install/upgrade)"
LEXPECT=$LDEFAULT
fi
echo "Status of symbolic link $LLINK:"
readlink -v $LLINK
}
do_install()
{
is_disabled
if [ $? -eq 0 ]; then
# found, legacy is disabled
ln -sf $LDISABLE $LLINK
else
# expression not found, legacy is set to default
ln -sf $LDEFAULT $LLINK
fi
}
do_default()
{
sed -i 's/^legacy *=.*$/legacy=default/' $LCFILE
do_install
/usr/bin/update-ca-trust
}
do_disable()
{
sed -i 's/^legacy *=.*$/legacy=disable/' $LCFILE
do_install
/usr/bin/update-ca-trust
}
do_help()
{
echo "usage: $0 [check | default | disable | install]"
}
if [[ $# -eq 0 ]]; then
# no parameters
do_help
exit $?
fi
if [[ "$1" = "install" ]]; then
do_install
exit $?
fi
if [[ "$1" = "default" ]]; then
do_default
exit $?
fi
if [[ "$1" = "disable" ]]; then
do_disable
exit $?
fi
if [[ "$1" = "check" ]]; then
do_check
exit $?
fi
echo "$0: Unsupported command $1"
do_help

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////
Copyright (C) 2013 Red Hat, Inc.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
////
ca-legacy(8)
============
:doctype: manpage
:man source: ca-legacy
NAME
----
ca-legacy - Manage the system configuration for legacy CA certificates
SYNOPSIS
--------
*ca-legacy* ['COMMAND']
DESCRIPTION
-----------
ca-legacy(8) is used to include or exclude a set of legacy Certificate Authority (CA)
certificates in the system's list of trusted CA certificates.
The list of CA certificates and trust flags included in the ca-certificates package
are based on the decisions made by Mozilla.org according to the Mozilla CA policy.
Occasionally, removal or distrust decisions made by Mozilla.org might be incompatible with the requirements
or limitations of some applications that also use the CA certificates list in the Linux environment.
The ca-certificates package might keep some CA certificates included and trusted by default,
as long as it is seen necessary by the maintainers, despite the fact that they have
been removed by Mozilla. These certificates are called legacy CA certificates.
The general requirements to keep legacy CA certificates included and trusted might change over time,
for example if functional limitations of software packages have been resolved.
Future versions of the ca-certificates package might reduce the set of legacy CA certificates
that are included and trusted by default.
The ca-legacy(8) command can be used to override the default behaviour.
The mechanisms to individually trust or distrust CA certificates as described in update-ca-trust(8) still apply.
COMMANDS
--------
*check*::
The current configuration will be shown.
*default*::
Configure the system to use the default configuration, as recommended
by the package maintainers.
*disable*::
Configure the system to explicitly disable legacy CA certificates.
Using this configuration, the system will use the set of
included and trusted CA certificates as released by Mozilla.
*install*::
The configuration file will be read and the system configuration
will be set accordingly. This command is executed automatically during
upgrades of the ca-certificates package.
FILES
-----
/etc/pki/ca-trust/ca-legacy.conf::
A configuration file that will be used and modified by the ca-legacy command.
The contents of the configuration file will be read on package upgrades.
AUTHOR
------
Written by Kai Engert.

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# The upstream Mozilla.org project tests all changes to the root CA
# list with the NSS (Network Security Services) library.
#
# Occassionally, changes might cause compatibility issues with
# other cryptographic libraries, such as openssl or gnutls.
#
# The package maintainers of the CA certificates package might decide
# to temporarily keep certain (legacy) root CA certificates trusted,
# until incompatibility issues can be resolved.
#
# Using this configuration file it is possible to opt-out of the
# compatibility choices made by the package maintainer.
#
# legacy=default :
# This configuration uses the choices made by the package maintainer.
# It may keep root CA certificate as trusted, which the upstream
# Mozilla.org project has already marked as no longer trusted.
# The set of CA certificates that are being kept enabled may change
# between package versions.
#
# legacy=disable :
# Follow all removal decisions made by Mozilla.org
#
legacy=default

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#!/usr/bin/python
# vim:set et sw=4:
#
# certdata2pem.py - splits certdata.txt into multiple files
#
# Copyright (C) 2009 Philipp Kern <pkern@debian.org>
# Copyright (C) 2013 Kai Engert <kaie@redhat.com>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301,
# USA.
import base64
import os.path
import re
import sys
import textwrap
import urllib.request, urllib.parse, urllib.error
import subprocess
objects = []
def printable_serial(obj):
return ".".join([str(x) for x in obj['CKA_SERIAL_NUMBER']])
# Dirty file parser.
in_data, in_multiline, in_obj = False, False, False
field, ftype, value, binval, obj = None, None, None, bytearray(), dict()
for line in open('certdata.txt', 'r'):
# Ignore the file header.
if not in_data:
if line.startswith('BEGINDATA'):
in_data = True
continue
# Ignore comment lines.
if line.startswith('#'):
continue
# Empty lines are significant if we are inside an object.
if in_obj and len(line.strip()) == 0:
objects.append(obj)
obj = dict()
in_obj = False
continue
if len(line.strip()) == 0:
continue
if in_multiline:
if not line.startswith('END'):
if ftype == 'MULTILINE_OCTAL':
line = line.strip()
for i in re.finditer(r'\\([0-3][0-7][0-7])', line):
integ = int(i.group(1), 8)
binval.extend((integ).to_bytes(1, sys.byteorder))
obj[field] = binval
else:
value += line
obj[field] = value
continue
in_multiline = False
continue
if line.startswith('CKA_CLASS'):
in_obj = True
line_parts = line.strip().split(' ', 2)
if len(line_parts) > 2:
field, ftype = line_parts[0:2]
value = ' '.join(line_parts[2:])
elif len(line_parts) == 2:
field, ftype = line_parts
value = None
else:
raise NotImplementedError('line_parts < 2 not supported.\n' + line)
if ftype == 'MULTILINE_OCTAL':
in_multiline = True
value = ""
binval = bytearray()
continue
obj[field] = value
if len(list(obj.items())) > 0:
objects.append(obj)
# Build up trust database.
trustmap = dict()
for obj in objects:
if obj['CKA_CLASS'] != 'CKO_NSS_TRUST':
continue
key = obj['CKA_LABEL'] + printable_serial(obj)
trustmap[key] = obj
print(" added trust", key)
# Build up cert database.
certmap = dict()
for obj in objects:
if obj['CKA_CLASS'] != 'CKO_CERTIFICATE':
continue
key = obj['CKA_LABEL'] + printable_serial(obj)
certmap[key] = obj
print(" added cert", key)
def obj_to_filename(obj):
label = obj['CKA_LABEL'][1:-1]
label = label.replace('/', '_')\
.replace(' ', '_')\
.replace('(', '=')\
.replace(')', '=')\
.replace(',', '_')
labelbytes = bytearray()
i = 0
imax = len(label)
while i < imax:
if i < imax-3 and label[i] == '\\' and label[i+1] == 'x':
labelbytes.extend(bytes.fromhex(label[i+2:i+4]))
i += 4
continue
labelbytes.extend(str.encode(label[i]))
i = i+1
continue
label = labelbytes.decode('utf-8')
serial = printable_serial(obj)
return label + ":" + serial
def write_cert_ext_to_file(f, oid, value, public_key):
f.write("[p11-kit-object-v1]\n")
f.write("label: ");
f.write(tobj['CKA_LABEL'])
f.write("\n")
f.write("class: x-certificate-extension\n");
f.write("object-id: " + oid + "\n")
f.write("value: \"" + value + "\"\n")
f.write("modifiable: false\n");
f.write(public_key)
trust_types = {
"CKA_TRUST_DIGITAL_SIGNATURE": "digital-signature",
"CKA_TRUST_NON_REPUDIATION": "non-repudiation",
"CKA_TRUST_KEY_ENCIPHERMENT": "key-encipherment",
"CKA_TRUST_DATA_ENCIPHERMENT": "data-encipherment",
"CKA_TRUST_KEY_AGREEMENT": "key-agreement",
"CKA_TRUST_KEY_CERT_SIGN": "cert-sign",
"CKA_TRUST_CRL_SIGN": "crl-sign",
"CKA_TRUST_SERVER_AUTH": "server-auth",
"CKA_TRUST_CLIENT_AUTH": "client-auth",
"CKA_TRUST_CODE_SIGNING": "code-signing",
"CKA_TRUST_EMAIL_PROTECTION": "email-protection",
"CKA_TRUST_IPSEC_END_SYSTEM": "ipsec-end-system",
"CKA_TRUST_IPSEC_TUNNEL": "ipsec-tunnel",
"CKA_TRUST_IPSEC_USER": "ipsec-user",
"CKA_TRUST_TIME_STAMPING": "time-stamping",
"CKA_TRUST_STEP_UP_APPROVED": "step-up-approved",
}
legacy_trust_types = {
"LEGACY_CKA_TRUST_SERVER_AUTH": "server-auth",
"LEGACY_CKA_TRUST_CODE_SIGNING": "code-signing",
"LEGACY_CKA_TRUST_EMAIL_PROTECTION": "email-protection",
}
legacy_to_real_trust_types = {
"LEGACY_CKA_TRUST_SERVER_AUTH": "CKA_TRUST_SERVER_AUTH",
"LEGACY_CKA_TRUST_CODE_SIGNING": "CKA_TRUST_CODE_SIGNING",
"LEGACY_CKA_TRUST_EMAIL_PROTECTION": "CKA_TRUST_EMAIL_PROTECTION",
}
openssl_trust = {
"CKA_TRUST_SERVER_AUTH": "serverAuth",
"CKA_TRUST_CLIENT_AUTH": "clientAuth",
"CKA_TRUST_CODE_SIGNING": "codeSigning",
"CKA_TRUST_EMAIL_PROTECTION": "emailProtection",
}
cert_distrust_types = {
"CKA_NSS_SERVER_DISTRUST_AFTER": "nss-server-distrust-after",
"CKA_NSS_EMAIL_DISTRUST_AFTER": "nss-email-distrust-after",
}
for tobj in objects:
if tobj['CKA_CLASS'] == 'CKO_NSS_TRUST':
key = tobj['CKA_LABEL'] + printable_serial(tobj)
print("producing trust for " + key)
trustbits = []
distrustbits = []
openssl_trustflags = []
openssl_distrustflags = []
legacy_trustbits = []
legacy_openssl_trustflags = []
for t in list(trust_types.keys()):
if t in tobj and tobj[t] == 'CKT_NSS_TRUSTED_DELEGATOR':
trustbits.append(t)
if t in openssl_trust:
openssl_trustflags.append(openssl_trust[t])
if t in tobj and tobj[t] == 'CKT_NSS_NOT_TRUSTED':
distrustbits.append(t)
if t in openssl_trust:
openssl_distrustflags.append(openssl_trust[t])
for t in list(legacy_trust_types.keys()):
if t in tobj and tobj[t] == 'CKT_NSS_TRUSTED_DELEGATOR':
real_t = legacy_to_real_trust_types[t]
legacy_trustbits.append(real_t)
if real_t in openssl_trust:
legacy_openssl_trustflags.append(openssl_trust[real_t])
if t in tobj and tobj[t] == 'CKT_NSS_NOT_TRUSTED':
raise NotImplementedError('legacy distrust not supported.\n' + line)
fname = obj_to_filename(tobj)
try:
obj = certmap[key]
except:
obj = None
# optional debug code, that dumps the parsed input to files
#fulldump = "dump-" + fname
#dumpf = open(fulldump, 'w')
#dumpf.write(str(obj));
#dumpf.write(str(tobj));
#dumpf.close();
is_legacy = 0
if 'LEGACY_CKA_TRUST_SERVER_AUTH' in tobj or 'LEGACY_CKA_TRUST_EMAIL_PROTECTION' in tobj or 'LEGACY_CKA_TRUST_CODE_SIGNING' in tobj:
is_legacy = 1
if obj == None:
raise NotImplementedError('found legacy trust without certificate.\n' + line)
legacy_fname = "legacy-default/" + fname + ".crt"
f = open(legacy_fname, 'w')
f.write("# alias=%s\n"%tobj['CKA_LABEL'])
f.write("# trust=" + " ".join(legacy_trustbits) + "\n")
if legacy_openssl_trustflags:
f.write("# openssl-trust=" + " ".join(legacy_openssl_trustflags) + "\n")
f.write("-----BEGIN CERTIFICATE-----\n")
temp_encoded_b64 = base64.b64encode(obj['CKA_VALUE'])
temp_wrapped = textwrap.wrap(temp_encoded_b64.decode(), 64)
f.write("\n".join(temp_wrapped))
f.write("\n-----END CERTIFICATE-----\n")
f.close()
if 'CKA_TRUST_SERVER_AUTH' in tobj or 'CKA_TRUST_EMAIL_PROTECTION' in tobj or 'CKA_TRUST_CODE_SIGNING' in tobj:
legacy_fname = "legacy-disable/" + fname + ".crt"
f = open(legacy_fname, 'w')
f.write("# alias=%s\n"%tobj['CKA_LABEL'])
f.write("# trust=" + " ".join(trustbits) + "\n")
if openssl_trustflags:
f.write("# openssl-trust=" + " ".join(openssl_trustflags) + "\n")
f.write("-----BEGIN CERTIFICATE-----\n")
f.write("\n".join(textwrap.wrap(base64.b64encode(obj['CKA_VALUE']), 64)))
f.write("\n-----END CERTIFICATE-----\n")
f.close()
# don't produce p11-kit output for legacy certificates
continue
pk = ''
cert_comment = ''
if obj != None:
# must extract the public key from the cert, let's use openssl
cert_fname = "cert-" + fname
fc = open(cert_fname, 'w')
fc.write("-----BEGIN CERTIFICATE-----\n")
temp_encoded_b64 = base64.b64encode(obj['CKA_VALUE'])
temp_wrapped = textwrap.wrap(temp_encoded_b64.decode(), 64)
fc.write("\n".join(temp_wrapped))
fc.write("\n-----END CERTIFICATE-----\n")
fc.close();
pk_fname = "pubkey-" + fname
fpkout = open(pk_fname, "w")
dump_pk_command = ["openssl", "x509", "-in", cert_fname, "-noout", "-pubkey"]
subprocess.call(dump_pk_command, stdout=fpkout)
fpkout.close()
with open (pk_fname, "r") as myfile:
pk=myfile.read()
# obtain certificate information suitable as a comment
comment_fname = "comment-" + fname
fcout = open(comment_fname, "w")
comment_command = ["openssl", "x509", "-in", cert_fname, "-noout", "-text"]
subprocess.call(comment_command, stdout=fcout)
fcout.close()
sed_command = ["sed", "--in-place", "s/^/#/", comment_fname]
subprocess.call(sed_command)
with open (comment_fname, "r", errors = 'replace') as myfile:
cert_comment=myfile.read()
fname += ".tmp-p11-kit"
f = open(fname, 'w')
if obj != None:
is_distrusted = False
has_server_trust = False
has_email_trust = False
has_code_trust = False
if 'CKA_TRUST_SERVER_AUTH' in tobj:
if tobj['CKA_TRUST_SERVER_AUTH'] == 'CKT_NSS_NOT_TRUSTED':
is_distrusted = True
elif tobj['CKA_TRUST_SERVER_AUTH'] == 'CKT_NSS_TRUSTED_DELEGATOR':
has_server_trust = True
if 'CKA_TRUST_EMAIL_PROTECTION' in tobj:
if tobj['CKA_TRUST_EMAIL_PROTECTION'] == 'CKT_NSS_NOT_TRUSTED':
is_distrusted = True
elif tobj['CKA_TRUST_EMAIL_PROTECTION'] == 'CKT_NSS_TRUSTED_DELEGATOR':
has_email_trust = True
if 'CKA_TRUST_CODE_SIGNING' in tobj:
if tobj['CKA_TRUST_CODE_SIGNING'] == 'CKT_NSS_NOT_TRUSTED':
is_distrusted = True
elif tobj['CKA_TRUST_CODE_SIGNING'] == 'CKT_NSS_TRUSTED_DELEGATOR':
has_code_trust = True
if is_distrusted:
trust_ext_oid = "1.3.6.1.4.1.3319.6.10.1"
trust_ext_value = "0.%06%0a%2b%06%01%04%01%99w%06%0a%01%04 0%1e%06%08%2b%06%01%05%05%07%03%04%06%08%2b%06%01%05%05%07%03%01%06%08%2b%06%01%05%05%07%03%03"
write_cert_ext_to_file(f, trust_ext_oid, trust_ext_value, pk)
trust_ext_oid = "2.5.29.37"
if has_server_trust:
if has_email_trust:
if has_code_trust:
# server + email + code
trust_ext_value = "0%2a%06%03U%1d%25%01%01%ff%04 0%1e%06%08%2b%06%01%05%05%07%03%04%06%08%2b%06%01%05%05%07%03%01%06%08%2b%06%01%05%05%07%03%03"
else:
# server + email
trust_ext_value = "0 %06%03U%1d%25%01%01%ff%04%160%14%06%08%2b%06%01%05%05%07%03%04%06%08%2b%06%01%05%05%07%03%01"
else:
if has_code_trust:
# server + code
trust_ext_value = "0 %06%03U%1d%25%01%01%ff%04%160%14%06%08%2b%06%01%05%05%07%03%01%06%08%2b%06%01%05%05%07%03%03"
else:
# server
trust_ext_value = "0%16%06%03U%1d%25%01%01%ff%04%0c0%0a%06%08%2b%06%01%05%05%07%03%01"
else:
if has_email_trust:
if has_code_trust:
# email + code
trust_ext_value = "0 %06%03U%1d%25%01%01%ff%04%160%14%06%08%2b%06%01%05%05%07%03%04%06%08%2b%06%01%05%05%07%03%03"
else:
# email
trust_ext_value = "0%16%06%03U%1d%25%01%01%ff%04%0c0%0a%06%08%2b%06%01%05%05%07%03%04"
else:
if has_code_trust:
# code
trust_ext_value = "0%16%06%03U%1d%25%01%01%ff%04%0c0%0a%06%08%2b%06%01%05%05%07%03%03"
else:
# none
trust_ext_value = "0%18%06%03U%1d%25%01%01%ff%04%0e0%0c%06%0a%2b%06%01%04%01%99w%06%0a%10"
# no 2.5.29.37 for neutral certificates
if (is_distrusted or has_server_trust or has_email_trust or has_code_trust):
write_cert_ext_to_file(f, trust_ext_oid, trust_ext_value, pk)
pk = ''
f.write("\n")
f.write("[p11-kit-object-v1]\n")
f.write("label: ");
f.write(tobj['CKA_LABEL'])
f.write("\n")
if is_distrusted:
f.write("x-distrusted: true\n")
elif has_server_trust or has_email_trust or has_code_trust:
f.write("trusted: true\n")
else:
f.write("trusted: false\n")
# requires p11-kit >= 0.23.4
f.write("nss-mozilla-ca-policy: true\n")
f.write("modifiable: false\n");
# requires p11-kit >= 0.23.19
for t in list(cert_distrust_types.keys()):
if t in obj:
value = obj[t]
if value == 'CK_FALSE':
value = bytearray(1)
f.write(cert_distrust_types[t] + ": \"")
f.write(urllib.parse.quote(value));
f.write("\"\n")
f.write("-----BEGIN CERTIFICATE-----\n")
temp_encoded_b64 = base64.b64encode(obj['CKA_VALUE'])
temp_wrapped = textwrap.wrap(temp_encoded_b64.decode(), 64)
f.write("\n".join(temp_wrapped))
f.write("\n-----END CERTIFICATE-----\n")
f.write(cert_comment)
f.write("\n")
else:
f.write("[p11-kit-object-v1]\n")
f.write("label: ");
f.write(tobj['CKA_LABEL']);
f.write("\n")
f.write("class: certificate\n")
f.write("certificate-type: x-509\n")
f.write("modifiable: false\n");
f.write("issuer: \"");
f.write(urllib.parse.quote(tobj['CKA_ISSUER']));
f.write("\"\n")
f.write("serial-number: \"");
f.write(urllib.parse.quote(tobj['CKA_SERIAL_NUMBER']));
f.write("\"\n")
if (tobj['CKA_TRUST_SERVER_AUTH'] == 'CKT_NSS_NOT_TRUSTED') or (tobj['CKA_TRUST_EMAIL_PROTECTION'] == 'CKT_NSS_NOT_TRUSTED') or (tobj['CKA_TRUST_CODE_SIGNING'] == 'CKT_NSS_NOT_TRUSTED'):
f.write("x-distrusted: true\n")
f.write("\n\n")
f.close()
print(" -> written as '%s', trust = %s, openssl-trust = %s, distrust = %s, openssl-distrust = %s" % (fname, trustbits, openssl_trustflags, distrustbits, openssl_distrustflags))

@ -0,0 +1,61 @@
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef NSSCKBI_H
#define NSSCKBI_H
/*
* NSS BUILTINS Version numbers.
*
* These are the version numbers for the builtins module packaged with
* this release on NSS. To determine the version numbers of the builtin
* module you are using, use the appropriate PKCS #11 calls.
*
* These version numbers detail changes to the PKCS #11 interface. They map
* to the PKCS #11 spec versions.
*/
#define NSS_BUILTINS_CRYPTOKI_VERSION_MAJOR 2
#define NSS_BUILTINS_CRYPTOKI_VERSION_MINOR 20
/* These version numbers detail the changes
* to the list of trusted certificates.
*
* The NSS_BUILTINS_LIBRARY_VERSION_MINOR macro needs to be bumped
* whenever we change the list of trusted certificates.
*
* Please use the following rules when increasing the version number:
*
* - starting with version 2.14, NSS_BUILTINS_LIBRARY_VERSION_MINOR
* must always be an EVEN number (e.g. 16, 18, 20 etc.)
*
* - whenever possible, if older branches require a modification to the
* list, these changes should be made on the main line of development (trunk),
* and the older branches should update to the most recent list.
*
* - ODD minor version numbers are reserved to indicate a snapshot that has
* deviated from the main line of development, e.g. if it was necessary
* to modify the list on a stable branch.
* Once the version has been changed to an odd number (e.g. 2.13) on a branch,
* it should remain unchanged on that branch, even if further changes are
* made on that branch.
*
* NSS_BUILTINS_LIBRARY_VERSION_MINOR is a CK_BYTE. It's not clear
* whether we may use its full range (0-255) or only 0-99 because
* of the comment in the CK_VERSION type definition.
* It's recommend to switch back to 0 after having reached version 98/99.
*/
#define NSS_BUILTINS_LIBRARY_VERSION_MAJOR 2
#define NSS_BUILTINS_LIBRARY_VERSION_MINOR 54
#define NSS_BUILTINS_LIBRARY_VERSION "2.54"
/* These version numbers detail the semantic changes to the ckfw engine. */
#define NSS_BUILTINS_HARDWARE_VERSION_MAJOR 1
#define NSS_BUILTINS_HARDWARE_VERSION_MINOR 0
/* These version numbers detail the semantic changes to ckbi itself
* (new PKCS #11 objects), etc. */
#define NSS_BUILTINS_FIRMWARE_VERSION_MAJOR 1
#define NSS_BUILTINS_FIRMWARE_VERSION_MINOR 0
#endif /* NSSCKBI_H */

@ -0,0 +1,22 @@
#!/bin/sh
#set -vx
# At this time, while this script is trivial, we ignore any parameters given.
# However, for backwards compatibility reasons, future versions of this script must
# support the syntax "update-ca-trust extract" trigger the generation of output
# files in $DEST.
DEST=/etc/pki/ca-trust/extracted
# Prevent p11-kit from reading user configuration files.
export P11_KIT_NO_USER_CONFIG=1
# OpenSSL PEM bundle that includes trust flags
# (BEGIN TRUSTED CERTIFICATE)
/usr/bin/p11-kit extract --format=openssl-bundle --filter=certificates --overwrite --comment $DEST/openssl/ca-bundle.trust.crt
/usr/bin/p11-kit extract --format=pem-bundle --filter=ca-anchors --overwrite --comment --purpose server-auth $DEST/pem/tls-ca-bundle.pem
/usr/bin/p11-kit extract --format=pem-bundle --filter=ca-anchors --overwrite --comment --purpose email $DEST/pem/email-ca-bundle.pem
/usr/bin/p11-kit extract --format=pem-bundle --filter=ca-anchors --overwrite --comment --purpose code-signing $DEST/pem/objsign-ca-bundle.pem
/usr/bin/p11-kit extract --format=java-cacerts --filter=ca-anchors --overwrite --purpose server-auth $DEST/java/cacerts
/usr/bin/p11-kit extract --format=edk2-cacerts --filter=ca-anchors --overwrite --purpose=server-auth $DEST/edk2/cacerts.bin

@ -0,0 +1,254 @@
////
Copyright (C) 2013 Red Hat, Inc.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
////
update-ca-trust(8)
==================
:doctype: manpage
:man source: update-ca-trust
NAME
----
update-ca-trust - manage consolidated and dynamic configuration of CA
certificates and associated trust
SYNOPSIS
--------
*update-ca-trust* ['COMMAND']
DESCRIPTION
-----------
update-ca-trust(8) is used to manage a consolidated and dynamic configuration
feature of Certificate Authority (CA) certificates and associated trust.
The feature is available for new applications that read the
consolidated configuration files found in the /etc/pki/ca-trust/extracted directory
or that load the PKCS#11 module p11-kit-trust.so
Parts of the new feature are also provided in a way to make it useful
for legacy applications.
Many legacy applications expect CA certificates and trust configuration
in a fixed location, contained in files with particular path and name,
or by referring to a classic PKCS#11 trust module provided by the
NSS cryptographic library.
The dynamic configuration feature provides functionally compatible replacements
for classic configuration files and for the classic NSS trust module named libnssckbi.
In order to enable legacy applications, that read the classic files or
access the classic module, to make use of the new consolidated and dynamic configuration
feature, the classic filenames have been changed to symbolic links.
The symbolic links refer to dynamically created and consolidated
output stored below the /etc/pki/ca-trust/extracted directory hierarchy.
The output is produced using the 'update-ca-trust' command (without parameters),
or using the 'update-ca-trust extract' command.
In order to produce the output, a flexible set of source configuration
is read, as described in section <<sourceconf,SOURCE CONFIGURATION>>.
In addition, the classic PKCS#11 module
is replaced with a new PKCS#11 module (p11-kit-trust.so) that dynamically
reads the same source configuration.
[[sourceconf]]
SOURCE CONFIGURATION
--------------------
The dynamic configuration feature uses several source directories that
will be scanned for any number of source files. *It is important to select
the correct subdirectory for adding files, as the subdirectory defines how
contained certificates will be trusted or distrusted, and which file formats are read.*
Files in *subdirectories below the directory hierarchy /usr/share/pki/ca-trust-source/* contain CA certificates and
trust settings in the PEM file format. The trust settings found here will be
interpreted with a *low priority*.
Files in *subdirectories below the directory hierarchy /etc/pki/ca-trust/source/* contain CA certificates and
trust settings in the PEM file format. The trust settings found here will be
interpreted with a *high priority*.
.You may use the following rules of thumb to decide, whether your configuration files should be added to the /etc or rather to the /usr directory hierarchy:
* If you are manually adding a configuration file to a system, you probably
want it to override any other default configuration, and you most likely should
add it to the respective subdirectory in the /etc hierarchy.
* If you are creating a package that provides additional root CA certificates,
that is intended for distribution to several computer systems, but you still
want to allow the administrator to override your list, then your package should
add your files to the respective subdirectory in the /usr hierarchy.
* If you are creating a package that is supposed to override the default system
trust settings, that is intended for distribution to several computer systems, then your package should install the files to the respective
subdirectory in the /etc hierarchy.
.*QUICK HELP 1*: To add a certificate in the simple PEM or DER file formats to the list of CAs trusted on the system:
* add it as a new file to directory /etc/pki/ca-trust/source/anchors/
* run 'update-ca-trust extract'
.*QUICK HELP 2*: If your certificate is in the extended BEGIN TRUSTED file format (which may contain distrust/blocklist trust flags, or trust flags for usages other than TLS) then:
* add it as a new file to directory /etc/pki/ca-trust/source/
* run 'update-ca-trust extract'
.In order to offer simplicity and flexibility, the way certificate files are treated depends on the subdirectory they are installed to.
* simple trust anchors subdirectory: /usr/share/pki/ca-trust-source/anchors/ or /etc/pki/ca-trust/source/anchors/
* simple blocklist (distrust) subdirectory: /usr/share/pki/ca-trust-source/blocklist/ or /etc/pki/ca-trust/source/blocklist/
* extended format directory: /usr/share/pki/ca-trust-source/ or /etc/pki/ca-trust/source/
.In the main directories /usr/share/pki/ca-trust-source/ or /etc/pki/ca-trust/source/ you may install one or multiple files in the following file formats:
* certificate files that include trust flags,
in the BEGIN/END TRUSTED CERTIFICATE file format
(any file name), which have been created using the openssl x509 tool
and the -addreject -addtrust options.
Bundle files with multiple certificates are supported.
* files in the p11-kit file format using the .p11-kit file name
extension, which can (e.g.) be used to distrust certificates
based on serial number and issuer name, without having the
full certificate available.
(This is currently an undocumented format, to be extended later.
For examples of the supported formats, see the files
shipped with the ca-certificates package.)
* certificate files without trust flags in either the DER file format or in
the PEM (BEGIN/END CERTIFICATE) file format (any file name). Such files
will be added with neutral trust, neither trusted nor distrusted.
They will simply be known to the system, which might be helpful to
assist cryptographic software in constructing chains of certificates.
(If you want a CA certificate in these file formats to be trusted, you
should remove it from this directory and move it to the
./anchors subdirectory instead.)
In the anchors subdirectories /usr/share/pki/ca-trust-source/anchors/ or /etc/pki/ca-trust/source/anchors/
you may install one or multiple certificates in either the DER file
format or in the PEM (BEGIN/END CERTIFICATE) file format.
Each certificate will be treated as *trusted* for all purposes.
In the blocklist subdirectories /usr/share/pki/ca-trust-source/blocklist/ or /etc/pki/ca-trust/source/blocklist/
you may install one or multiple certificates in either the DER file
format or in the PEM (BEGIN/END CERTIFICATE) file format.
Each certificate will be treated as *distrusted* for all purposes.
Please refer to the x509(1) manual page for the documentation of the
BEGIN/END CERTIFICATE and BEGIN/END TRUSTED CERTIFICATE file formats.
Applications that rely on a static file for a list of trusted CAs
may load one of the files found in the /etc/pki/ca-trust/extracted
directory. After modifying any file in the
/usr/share/pki/ca-trust-source/ or /etc/pki/ca-trust/source/
directories or in any of their subdirectories, or after adding a file,
it is necessary to run the 'update-ca-trust extract' command,
in order to update the consolidated files in /etc/pki/ca-trust/extracted/ .
Applications that load the classic PKCS#11 module using filename libnssckbi.so
(which has been converted into a symbolic link pointing to the new module)
and any application capable of
loading PKCS#11 modules and loading p11-kit-trust.so, will benefit from
the dynamically merged set of certificates and trust information stored in the
/usr/share/pki/ca-trust-source/ and /etc/pki/ca-trust/source/ directories.
[[extractconf]]
EXTRACTED CONFIGURATION
-----------------------
The directory /etc/pki/ca-trust/extracted/ contains generated CA certificate
bundle files which are created and updated, based on the <<sourceconf,SOURCE CONFIGURATION>>
by running the 'update-ca-trust extract' command.
If your application isn't able to load the PKCS#11 module p11-kit-trust.so,
then you can use these files in your application to load a list of global
root CA certificates.
Please never manually edit the files stored in this directory,
because your changes will be lost and the files automatically overwritten,
each time the 'update-ca-trust extract' command gets executed.
In order to install new trusted or distrusted certificates,
please rather install them in the respective subdirectory below the
/usr/share/pki/ca-trust-source/ or /etc/pki/ca-trust/source/
directories, as described in the <<sourceconf,SOURCE CONFIGURATION>> section.
The directory /etc/pki/ca-trust/extracted/java/ contains
a CA certificate bundle in the java keystore file format.
Distrust information cannot be represented in this file format,
and distrusted certificates are missing from these files.
File cacerts contains CA certificates trusted for TLS server authentication.
The directory /etc/pki/ca-trust/extracted/openssl/ contains
CA certificate bundle files in the extended BEGIN/END TRUSTED CERTIFICATE file format,
as described in the x509(1) manual page.
File ca-bundle.trust.crt contains the full set of all trusted
or distrusted certificates, including the associated trust flags.
The directory /etc/pki/ca-trust/extracted/pem/ contains
CA certificate bundle files in the simple BEGIN/END CERTIFICATE file format,
as described in the x509(1) manual page.
Distrust information cannot be represented in this file format,
and distrusted certificates are missing from these files.
File tls-ca-bundle.pem contains CA certificates
trusted for TLS server authentication.
File email-ca-bundle.pem contains CA certificates
trusted for E-Mail protection.
File objsign-ca-bundle.pem contains CA certificates
trusted for code signing.
The directory /etc/pki/ca-trust/extracted/edk2/ contains a CA
certificate bundle ("cacerts.bin") in the "sequence of
EFI_SIGNATURE_LISTs" format, defined in the UEFI-2.7 specification,
sections "31.4.1 Signature Database" and
"EFI_CERT_X509_GUID". Distrust information cannot be represented in
this file format, and distrusted certificates are missing from these
files. File "cacerts.bin" contains CA certificates trusted for TLS
server authentication.
COMMANDS
--------
(absent/empty command)::
Same as the *extract* command described below. (However, the command may
print fewer warnings, as this command is being run during rpm package
installation, where non-fatal status output is undesired.)
*extract*::
Instruct update-ca-trust to scan the <<sourceconf,SOURCE CONFIGURATION>> and produce
updated versions of the consolidated configuration files stored below
the /etc/pki/ca-trust/extracted directory hierarchy.
FILES
-----
/etc/pki/tls/certs/ca-bundle.crt::
Classic filename, file contains a list of CA certificates trusted for TLS server authentication usage, in the simple BEGIN/END CERTIFICATE file format, without distrust information.
This file is a symbolic link that refers to the consolidated output created by the update-ca-trust command.
/etc/pki/tls/certs/ca-bundle.trust.crt::
Classic filename, file contains a list of CA certificates in the extended BEGIN/END TRUSTED CERTIFICATE file format, which includes trust (and/or distrust) flags specific to certificate usage.
This file is a symbolic link that refers to the consolidated output created by the update-ca-trust command.
/etc/pki/java/cacerts::
Classic filename, file contains a list of CA certificates trusted for TLS server authentication usage, in the Java keystore file format, without distrust information.
This file is a symbolic link that refers to the consolidated output created by the update-ca-trust command.
/usr/share/pki/ca-trust-source::
Contains multiple, low priority source configuration files as explained in section <<sourceconf,SOURCE CONFIGURATION>>. Please pay attention to the specific meanings of the respective subdirectories.
/etc/pki/ca-trust/source::
Contains multiple, high priority source configuration files as explained in section <<sourceconf,SOURCE CONFIGURATION>>. Please pay attention to the specific meanings of the respective subdirectories.
/etc/pki/ca-trust/extracted::
Contains consolidated and automatically generated configuration files for consumption by applications,
which are created using the 'update-ca-trust extract' command. Don't edit files in this directory, because they will be overwritten.
See section <<extractconf,EXTRACTED CONFIGURATION>> for additional details.
AUTHOR
------
Written by Kai Engert and Stef Walter.

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