def indented_output(msg, l, level=0):
msg = '%s:' % msg
lines = []
if not l:
l = ['--']
lines.extend(nss.make_line_fmt_tuples(level, msg))
lines.extend(nss.make_line_fmt_tuples(level+1, l))
return nss.indented_format(lines)
def indented_output(msg, l, level=0):
msg = '%s:' % msg
lines = []
if not l:
l = ['--']
lines.extend(nss.make_line_fmt_tuples(level, msg))
lines.extend(nss.make_line_fmt_tuples(level + 1, l))
return nss.indented_format(lines)
def fmt_info(label, item, level=0, hex_data=False):
fmt_tuples = nss.make_line_fmt_tuples(level, label + ':')
if hex_data:
fmt_tuples.extend(
nss.make_line_fmt_tuples(level + 1, nss.data_to_hex(item, 16)))
elif isinstance(item, six.string_types):
fmt_tuples.extend(nss.make_line_fmt_tuples(level + 1, str(item)))
else:
fmt_tuples.extend(item.format_lines(level=level + 1))
return nss.indented_format(fmt_tuples)
def fmt_info(label, item, level=0, hex_data=False):
fmt_tuples = nss.make_line_fmt_tuples(level, label+':')
if hex_data:
fmt_tuples.extend(nss.make_line_fmt_tuples(level+1,
nss.data_to_hex(item, 16)))
elif isinstance(item, six.string_types):
fmt_tuples.extend(nss.make_line_fmt_tuples(level+1, str(item)))
else:
fmt_tuples.extend(item.format_lines(level=level+1))
return nss.indented_format(fmt_tuples)
def print_extension(level, extension):
print nss.indented_format([(level, 'Name: %s' % extension.name),
(level, 'Critical: %s' % extension.critical)])
oid_tag = extension.oid_tag
if oid_tag == nss.SEC_OID_PKCS12_KEY_USAGE:
print nss.indented_format([(level, 'Usages:')])
print nss.indented_format(nss.make_line_fmt_tuples(level+1, nss.x509_key_usage(extension.value)))
elif oid_tag == nss.SEC_OID_X509_SUBJECT_KEY_ID:
print nss.indented_format([(level, 'Data:')])
print nss.indented_format(nss.make_line_fmt_tuples(level+1,
extension.value.der_to_hex(nss.OCTETS_PER_LINE_DEFAULT)))
elif oid_tag == nss.SEC_OID_X509_CRL_DIST_POINTS:
pts = nss.CRLDistributionPts(extension.value)
i = 1
print nss.indented_format([(level, 'CRL Distribution Points: [%d total]' % len(pts))])
for pt in pts:
print nss.indented_format([(level+1, 'Point[%d]:' % i)])
names = pt.get_general_names()
print nss.indented_format([(level+2, 'General Names: [%d total]' % len(names))])
for name in names:
print nss.indented_format([(level+3, '%s:' % name)])
print nss.indented_format([(level+2, 'Reasons: %s' % (pt.get_reasons(),))])
print nss.indented_format([(level+2, 'Issuer: %s' % pt.issuer)])
elif oid_tag == nss.SEC_OID_X509_AUTH_KEY_ID:
auth_key_id = nss.AuthKeyID(extension.value)
print nss.indented_format([(level+1, 'Key ID:')])
print nss.indented_format(nss.make_line_fmt_tuples(level+2,
auth_key_id.key_id.to_hex(nss.OCTETS_PER_LINE_DEFAULT)))
print nss.indented_format([(level+1, 'Serial Number: %s' % (auth_key_id.serial_number))])
print nss.indented_format([(level+1, 'Issuer:' % auth_key_id.get_general_names())])
elif oid_tag == nss.SEC_OID_X509_BASIC_CONSTRAINTS:
bc = nss.BasicConstraints(extension.value)
print nss.indented_format([(level, '%s' % str(bc))])
elif oid_tag == nss.SEC_OID_X509_EXT_KEY_USAGE:
print nss.indented_format([(level, 'Usages:')])
print nss.indented_format(nss.make_line_fmt_tuples(level+1, nss.x509_ext_key_usage(extension.value)))
elif oid_tag in (nss.SEC_OID_X509_SUBJECT_ALT_NAME, nss.SEC_OID_X509_ISSUER_ALT_NAME):
names = nss.x509_alt_name(extension.value)
print nss.indented_format([(level+2, 'Alternate Names: [%d total]' % len(names))])
for name in names:
print nss.indented_format([(level+3, '%s:' % name)])
print
def indented_obj(msg, obj, level=0):
msg = '%s:' % msg
lines = []
lines.extend(nss.make_line_fmt_tuples(level, msg))
lines.extend(obj.format_lines(level + 1))
return nss.indented_format(lines)
def indented_obj(msg, obj, level=0):
msg = '%s:' % msg
lines = []
lines.extend(nss.make_line_fmt_tuples(level, msg))
lines.extend(obj.format_lines(level+1))
return nss.indented_format(lines)
(1, 'Data:')])
print nss.indented_format([(2, 'Version: %d (%#x)' % (cert.version+1, cert.version))])
print nss.indented_format([(2, 'Serial Number: %d (%#x)' % (cert.serial_number, cert.serial_number))])
print nss.indented_format([(2, 'Signature Algorithm:')])
print nss.indented_format(cert.signature_algorithm.format_lines(3))
print nss.indented_format([(2, 'Issuer: "%s"' % cert.issuer)])
print nss.indented_format([(2, 'Validity:'),
(3, 'Not Before: %s' % cert.valid_not_before_str),
(3, 'Not After: %s' % cert.valid_not_after_str)])
print nss.indented_format([(2, 'Subject: "%s"' % cert.subject)])
print nss.indented_format([(2, 'Subject Public Key Info:')])
print nss.indented_format(cert.subject_public_key_info.format_lines(3))
if len(extensions) > 0:
print nss.indented_format([(1, 'Signed Extensions: (%d)' % len(extensions))])
for extension in extensions:
print_extension(2, extension)
print nss.indented_format(cert.signed_data.format_lines(1))
print nss.indented_format([(1, 'Fingerprint (MD5):')])
print nss.indented_format(nss.make_line_fmt_tuples(2,
nss.data_to_hex(nss.md5_digest(cert.der_data),
nss.OCTETS_PER_LINE_DEFAULT)))
print nss.indented_format([(1, 'Fingerprint (SHA1):')])
print nss.indented_format(nss.make_line_fmt_tuples(2,
nss.data_to_hex(nss.sha1_digest(cert.der_data),
nss.OCTETS_PER_LINE_DEFAULT)))
def print_extension(level, extension):
print(nss.indented_format([(level, 'Name: %s' % extension.name),
(level, 'Critical: %s' % extension.critical)]))
oid_tag = extension.oid_tag
if oid_tag == nss.SEC_OID_PKCS12_KEY_USAGE:
print(nss.indented_format([(level, 'Usages:')]))
print(nss.indented_format(nss.make_line_fmt_tuples(level+1, nss.x509_key_usage(extension.value))))
elif oid_tag == nss.SEC_OID_NS_CERT_EXT_CERT_TYPE:
print(nss.indented_format([(level, 'Types:')]))
print(nss.indented_format(nss.make_line_fmt_tuples(level+1, nss.x509_cert_type(extension.value))))
elif oid_tag == nss.SEC_OID_X509_SUBJECT_KEY_ID:
print(nss.indented_format([(level, 'Data:')]))
print(nss.indented_format(nss.make_line_fmt_tuples(level+1,
extension.value.der_to_hex(nss.OCTETS_PER_LINE_DEFAULT))))
elif oid_tag == nss.SEC_OID_X509_CRL_DIST_POINTS:
pts = nss.CRLDistributionPts(extension.value)
print(nss.indented_format([(level, 'CRL Distribution Points: [%d total]' % len(pts))]))
for i, pt in enumerate(pts):
print(nss.indented_format([(level+1, 'Point[%d]:' % i)]))
names = pt.get_general_names()
print(nss.indented_format([(level+2, 'General Names: [%d total]' % len(names))]))
for name in names:
print(nss.indented_format([(level+3, '%s:' % name)]))
print(nss.indented_format([(level+2, 'Reasons: %s' % (pt.get_reasons(),))]))
print(nss.indented_format([(level+2, 'Issuer: %s' % pt.issuer)]))
elif oid_tag == nss.SEC_OID_X509_AUTH_INFO_ACCESS:
aias = nss.AuthorityInfoAccesses(extension.value)
print(nss.indented_format([(level, 'Authority Information Access: [%d total]' % len(aias))]))
for i, aia in enumerate(aias):
print(nss.indented_format([(level+1, 'Info[%d]:' % i)]))
print(nss.indented_format([(level+2, 'Method: %s' % (aia.method_str,))]))
print(nss.indented_format([(level+2, 'Location: (%s) %s' % (aia.location.type_string, aia.location.name))]))
elif oid_tag == nss.SEC_OID_X509_AUTH_KEY_ID:
auth_key_id = nss.AuthKeyID(extension.value)
print(nss.indented_format([(level+1, 'Key ID:')]))
print(nss.indented_format(nss.make_line_fmt_tuples(level+2,
auth_key_id.key_id.to_hex(nss.OCTETS_PER_LINE_DEFAULT))))
print(nss.indented_format([(level+1, 'Serial Number: %s' % (auth_key_id.serial_number))]))
print(nss.indented_format([(level+1, 'Issuer:' % auth_key_id.get_general_names())]))
elif oid_tag == nss.SEC_OID_X509_BASIC_CONSTRAINTS:
bc = nss.BasicConstraints(extension.value)
print(nss.indented_format([(level, '%s' % str(bc))]))
elif oid_tag == nss.SEC_OID_X509_EXT_KEY_USAGE:
print(nss.indented_format([(level, 'Usages:')]))
print(nss.indented_format(nss.make_line_fmt_tuples(level+1, nss.x509_ext_key_usage(extension.value))))
elif oid_tag in (nss.SEC_OID_X509_SUBJECT_ALT_NAME, nss.SEC_OID_X509_ISSUER_ALT_NAME):
names = nss.x509_alt_name(extension.value)
print(nss.indented_format([(level+2, 'Alternate Names: [%d total]' % len(names))]))
for name in names:
print(nss.indented_format([(level+3, '%s:' % name)]))
print()
def print_extension(level, extension):
print(
nss.indented_format([(level, 'Name: %s' % extension.name),
(level, 'Critical: %s' % extension.critical)]))
oid_tag = extension.oid_tag
if oid_tag == nss.SEC_OID_PKCS12_KEY_USAGE:
print(nss.indented_format([(level, 'Usages:')]))
print(
nss.indented_format(
nss.make_line_fmt_tuples(level + 1,
nss.x509_key_usage(extension.value))))
elif oid_tag == nss.SEC_OID_NS_CERT_EXT_CERT_TYPE:
print(nss.indented_format([(level, 'Types:')]))
print(
nss.indented_format(
nss.make_line_fmt_tuples(level + 1,
nss.x509_cert_type(extension.value))))
elif oid_tag == nss.SEC_OID_X509_SUBJECT_KEY_ID:
print(nss.indented_format([(level, 'Data:')]))
print(
nss.indented_format(
nss.make_line_fmt_tuples(
level + 1,
extension.value.der_to_hex(nss.OCTETS_PER_LINE_DEFAULT))))
elif oid_tag == nss.SEC_OID_X509_CRL_DIST_POINTS:
pts = nss.CRLDistributionPts(extension.value)
print(
nss.indented_format([
(level, 'CRL Distribution Points: [%d total]' % len(pts))
]))
for i, pt in enumerate(pts):
print(nss.indented_format([(level + 1, 'Point[%d]:' % i)]))
names = pt.get_general_names()
print(
nss.indented_format([
(level + 2, 'General Names: [%d total]' % len(names))
]))
for name in names:
print(nss.indented_format([(level + 3, '%s:' % name)]))
print(
nss.indented_format([(level + 2,
'Reasons: %s' % (pt.get_reasons(), ))]))
print(nss.indented_format([(level + 2, 'Issuer: %s' % pt.issuer)]))
elif oid_tag == nss.SEC_OID_X509_AUTH_INFO_ACCESS:
aias = nss.AuthorityInfoAccesses(extension.value)
print(
nss.indented_format([
(level, 'Authority Information Access: [%d total]' % len(aias))
]))
for i, aia in enumerate(aias):
print(nss.indented_format([(level + 1, 'Info[%d]:' % i)]))
print(
nss.indented_format([(level + 2,
'Method: %s' % (aia.method_str, ))]))
print(
nss.indented_format([
(level + 2, 'Location: (%s) %s' %
(aia.location.type_string, aia.location.name))
]))
elif oid_tag == nss.SEC_OID_X509_AUTH_KEY_ID:
auth_key_id = nss.AuthKeyID(extension.value)
print(nss.indented_format([(level + 1, 'Key ID:')]))
print(
nss.indented_format(
nss.make_line_fmt_tuples(
level + 2,
auth_key_id.key_id.to_hex(nss.OCTETS_PER_LINE_DEFAULT))))
print(
nss.indented_format([
(level + 1, 'Serial Number: %s' % (auth_key_id.serial_number))
]))
print(
nss.indented_format([
(level + 1, 'Issuer:' % auth_key_id.get_general_names())
]))
elif oid_tag == nss.SEC_OID_X509_BASIC_CONSTRAINTS:
bc = nss.BasicConstraints(extension.value)
print(nss.indented_format([(level, '%s' % str(bc))]))
elif oid_tag == nss.SEC_OID_X509_EXT_KEY_USAGE:
print(nss.indented_format([(level, 'Usages:')]))
print(
nss.indented_format(
nss.make_line_fmt_tuples(
level + 1, nss.x509_ext_key_usage(extension.value))))
elif oid_tag in (nss.SEC_OID_X509_SUBJECT_ALT_NAME,
nss.SEC_OID_X509_ISSUER_ALT_NAME):
names = nss.x509_alt_name(extension.value)
print(
nss.indented_format([
(level + 2, 'Alternate Names: [%d total]' % len(names))
]))
for name in names:
print(nss.indented_format([(level + 3, '%s:' % name)]))
print()
(3, 'Not Before: %s' % cert.valid_not_before_str),
(3, 'Not After: %s' % cert.valid_not_after_str)]))
print(nss.indented_format([(2, 'Subject: "%s"' % cert.subject)]))
print(nss.indented_format([(2, 'Subject Public Key Info:')]))
print(nss.indented_format(cert.subject_public_key_info.format_lines(3)))
if len(extensions) > 0:
print(
nss.indented_format([(1, 'Signed Extensions: (%d)' % len(extensions))
]))
for extension in extensions:
print_extension(2, extension)
print(nss.indented_format(cert.signed_data.format_lines(1)))
print(nss.indented_format([(1, 'Fingerprint (MD5):')]))
print(
nss.indented_format(
nss.make_line_fmt_tuples(
2,
nss.data_to_hex(nss.md5_digest(cert.der_data),
nss.OCTETS_PER_LINE_DEFAULT))))
print(nss.indented_format([(1, 'Fingerprint (SHA1):')]))
print(
nss.indented_format(
nss.make_line_fmt_tuples(
2,
nss.data_to_hex(nss.sha1_digest(cert.der_data),
nss.OCTETS_PER_LINE_DEFAULT))))
def print_extension(level, extension):
print nss.indented_format([(level, 'Name: %s' % extension.name),
(level, 'Critical: %s' % extension.critical)])
oid_tag = extension.oid_tag
if oid_tag == nss.SEC_OID_PKCS12_KEY_USAGE:
print nss.indented_format([(level, 'Usages:')])
print nss.indented_format(
nss.make_line_fmt_tuples(level + 1,
nss.x509_key_usage(extension.value)))
elif oid_tag == nss.SEC_OID_X509_SUBJECT_KEY_ID:
print nss.indented_format([(level, 'Data:')])
print nss.indented_format(
nss.make_line_fmt_tuples(
level + 1,
extension.value.der_to_hex(nss.OCTETS_PER_LINE_DEFAULT)))
elif oid_tag == nss.SEC_OID_X509_CRL_DIST_POINTS:
pts = nss.CRLDistributionPts(extension.value)
i = 1
print nss.indented_format([
(level, 'CRL Distribution Points: [%d total]' % len(pts))
])
for pt in pts:
print nss.indented_format([(level + 1, 'Point[%d]:' % i)])
names = pt.get_general_names()
print nss.indented_format([
(level + 2, 'General Names: [%d total]' % len(names))
])
for name in names:
print nss.indented_format([(level + 3, '%s:' % name)])
print nss.indented_format([(level + 2,
'Reasons: %s' % (pt.get_reasons(), ))])
print nss.indented_format([(level + 2, 'Issuer: %s' % pt.issuer)])
elif oid_tag == nss.SEC_OID_X509_AUTH_KEY_ID:
auth_key_id = nss.AuthKeyID(extension.value)
print nss.indented_format([(level + 1, 'Key ID:')])
print nss.indented_format(
nss.make_line_fmt_tuples(
level + 2,
auth_key_id.key_id.to_hex(nss.OCTETS_PER_LINE_DEFAULT)))
print nss.indented_format([
(level + 1, 'Serial Number: %s' % (auth_key_id.serial_number))
])
print nss.indented_format([
(level + 1, 'Issuer:' % auth_key_id.get_general_names())
])
elif oid_tag == nss.SEC_OID_X509_BASIC_CONSTRAINTS:
bc = nss.BasicConstraints(extension.value)
print nss.indented_format([(level, '%s' % str(bc))])
elif oid_tag == nss.SEC_OID_X509_EXT_KEY_USAGE:
print nss.indented_format([(level, 'Usages:')])
print nss.indented_format(
nss.make_line_fmt_tuples(level + 1,
nss.x509_ext_key_usage(extension.value)))
elif oid_tag in (nss.SEC_OID_X509_SUBJECT_ALT_NAME,
nss.SEC_OID_X509_ISSUER_ALT_NAME):
names = nss.x509_alt_name(extension.value)
print nss.indented_format([
(level + 2, 'Alternate Names: [%d total]' % len(names))
])
for name in names:
print nss.indented_format([(level + 3, '%s:' % name)])
print