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cobalt / cobalt / cde3442a440acd4a8f18a44377f1db36e384db7e / . / src / net / cert / internal / name_constraints_unittest.cc
blob: e98e21d35d753f98a080f4c5bf5b5f62c8ba6d40 [file] [log] [blame]
// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/cert/internal/name_constraints.h"
#include <memory>
#include "net/base/ip_address.h"
#include "net/cert/internal/common_cert_errors.h"
#include "net/cert/internal/test_helpers.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace net {
namespace {
::testing::AssertionResult LoadTestData(const char* token,
const std::string& basename,
std::string* result) {
std::string path = "net/data/name_constraints_unittest/" + basename;
const PemBlockMapping mappings[] = {
{token, result},
};
return ReadTestDataFromPemFile(path, mappings);
}
::testing::AssertionResult LoadTestName(const std::string& basename,
std::string* result) {
return LoadTestData("NAME", basename, result);
}
::testing::AssertionResult LoadTestNameConstraint(const std::string& basename,
std::string* result) {
return LoadTestData("NAME CONSTRAINTS", basename, result);
}
::testing::AssertionResult LoadTestSubjectAltNameData(
const std::string& basename,
std::string* result) {
return LoadTestData("SUBJECT ALTERNATIVE NAME", basename, result);
}
::testing::AssertionResult LoadTestSubjectAltName(
const std::string& basename,
std::unique_ptr<GeneralNames>* result,
std::string* result_der) {
::testing::AssertionResult load_result =
LoadTestSubjectAltNameData(basename, result_der);
if (!load_result)
return load_result;
CertErrors errors;
*result = GeneralNames::Create(der::Input(result_der), &errors);
if (!*result)
return ::testing::AssertionFailure() << "Create failed";
return ::testing::AssertionSuccess();
}
::testing::AssertionResult IsPermittedCert(
const NameConstraints* name_constraints,
const der::Input& subject_rdn_sequence,
const GeneralNames* subject_alt_names) {
CertErrors errors;
name_constraints->IsPermittedCert(subject_rdn_sequence, subject_alt_names,
&errors);
if (!errors.ContainsAnyErrorWithSeverity(CertError::SEVERITY_HIGH))
return ::testing::AssertionSuccess();
if (!errors.ContainsError(cert_errors::kNotPermittedByNameConstraints))
ADD_FAILURE() << "unexpected error " << errors.ToDebugString();
return ::testing::AssertionFailure();
}
} // namespace
class ParseNameConstraints
: public ::testing::TestWithParam<::testing::tuple<bool>> {
public:
bool is_critical() const { return ::testing::get<0>(GetParam()); }
};
// Run the tests with the name constraints marked critical and non-critical. For
// supported name types, the results should be the same for both.
INSTANTIATE_TEST_CASE_P(InstantiationName,
ParseNameConstraints,
::testing::Values(true, false));
TEST_P(ParseNameConstraints, DNSNames) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("dnsname.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
EXPECT_TRUE(name_constraints->IsPermittedDNSName("permitted.example.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("permitted.example.com."));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("a.permitted.example.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("apermitted.example.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("apermitted.example.com."));
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("alsopermitted.example.com"));
EXPECT_FALSE(
name_constraints->IsPermittedDNSName("excluded.permitted.example.com"));
EXPECT_FALSE(
name_constraints->IsPermittedDNSName("a.excluded.permitted.example.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName(
"stillnotpermitted.excluded.permitted.example.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName(
"a.stillnotpermitted.excluded.permitted.example.com"));
EXPECT_FALSE(
name_constraints->IsPermittedDNSName("extraneousexclusion.example.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName(
"a.extraneousexclusion.example.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("other.example.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("other.com"));
// Wildcard names:
// Pattern could match excluded.permitted.example.com, thus should not be
// allowed.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*.permitted.example.com"));
// Entirely within excluded name, obviously not allowed.
EXPECT_FALSE(
name_constraints->IsPermittedDNSName("*.excluded.permitted.example.com"));
// Within permitted.example.com and cannot match any exclusion, thus these are
// allowed.
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("*.foo.permitted.example.com"));
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("*.alsopermitted.example.com"));
// Matches permitted.example2.com, but also matches other .example2.com names
// which are not in either permitted or excluded, so not allowed.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*.example2.com"));
// Partial wildcards are not supported, so these name are permitted even if
// it seems like they shouldn't be. It's fine, since certificate verification
// won't treat them as wildcard names either.
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("*xcluded.permitted.example.com"));
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("exclude*.permitted.example.com"));
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("excl*ded.permitted.example.com"));
// Garbage wildcard data.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*."));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*.*"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName(".*"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*"));
// Matches SAN with trailing dot.
EXPECT_TRUE(name_constraints->IsPermittedDNSName("permitted.example3.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("permitted.example3.com."));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("a.permitted.example3.com"));
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("a.permitted.example3.com."));
EXPECT_EQ(GENERAL_NAME_DNS_NAME, name_constraints->constrained_name_types());
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-permitted.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-dnsname.pem", &san, &san_der));
EXPECT_FALSE(
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-directoryname.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-ipaddress.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints,
DNSNamesWithMultipleLevelsBetweenExcludedAndPermitted) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("dnsname2.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// Matches permitted exactly.
EXPECT_TRUE(name_constraints->IsPermittedDNSName("com"));
// Contained within permitted and doesn't match excluded (foo.bar.com).
EXPECT_TRUE(name_constraints->IsPermittedDNSName("bar.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("baz.bar.com"));
// Matches excluded exactly.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("foo.bar.com"));
// Contained within excluded.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("baz.foo.bar.com"));
// Cannot match anything within excluded.
EXPECT_TRUE(name_constraints->IsPermittedDNSName("*.baz.bar.com"));
// Wildcard hostnames only match a single label, so cannot match excluded
// which has two labels before .com.
EXPECT_TRUE(name_constraints->IsPermittedDNSName("*.com"));
// Partial match of foo.bar.com.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*.bar.com"));
// All expansions of wildcard are within excluded.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*.foo.bar.com"));
}
TEST_P(ParseNameConstraints, DNSNamesPermittedWithLeadingDot) {
std::string a;
ASSERT_TRUE(
LoadTestNameConstraint("dnsname-permitted_with_leading_dot.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// A permitted dNSName constraint of ".bar.com" should only match subdomains
// of .bar.com, but not bar.com itself.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("bar.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("foobar.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("foo.bar.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("*.bar.com"));
}
TEST_P(ParseNameConstraints, DNSNamesExcludedWithLeadingDot) {
std::string a;
ASSERT_TRUE(
LoadTestNameConstraint("dnsname-excluded_with_leading_dot.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// An excluded dNSName constraint of ".bar.com" should only match subdomains
// of .bar.com, but not bar.com itself.
EXPECT_TRUE(name_constraints->IsPermittedDNSName("com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("bar.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("foobar.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("foo.bar.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*.bar.com"));
}
TEST_P(ParseNameConstraints, DNSNamesPermittedTwoDot) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("dnsname-permitted_two_dot.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// A dNSName constraint of ".." isn't meaningful. Shouldn't match anything.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("com."));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("foo.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("*.com"));
}
TEST_P(ParseNameConstraints, DNSNamesExcludeOnly) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("dnsname-excluded.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// Only "excluded.permitted.example.com" is excluded, and since permitted is
// empty, any dNSName outside that is allowed.
EXPECT_TRUE(name_constraints->IsPermittedDNSName(""));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("foo.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("permitted.example.com"));
EXPECT_FALSE(
name_constraints->IsPermittedDNSName("excluded.permitted.example.com"));
EXPECT_FALSE(
name_constraints->IsPermittedDNSName("a.excluded.permitted.example.com"));
}
TEST_P(ParseNameConstraints, DNSNamesExcludeAll) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("dnsname-excludeall.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// "permitted.example.com" is in the permitted section, but since "" is
// excluded, nothing is permitted.
EXPECT_FALSE(name_constraints->IsPermittedDNSName(""));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("foo.com"));
EXPECT_FALSE(name_constraints->IsPermittedDNSName("permitted.example.com"));
EXPECT_FALSE(
name_constraints->IsPermittedDNSName("foo.permitted.example.com"));
}
TEST_P(ParseNameConstraints, DNSNamesExcludeDot) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("dnsname-exclude_dot.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// "." is excluded, which should match nothing.
EXPECT_FALSE(name_constraints->IsPermittedDNSName("foo.com"));
EXPECT_TRUE(name_constraints->IsPermittedDNSName("permitted.example.com"));
EXPECT_TRUE(
name_constraints->IsPermittedDNSName("foo.permitted.example.com"));
}
TEST_P(ParseNameConstraints, DNSNamesFailOnInvalidIA5String) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("dnsname.pem", &a));
size_t replace_location = a.find("permitted.example2.com");
ASSERT_NE(std::string::npos, replace_location);
a.replace(replace_location, 1, 1, -1);
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&a), is_critical(), &errors));
}
TEST_P(ParseNameConstraints, DirectoryNames) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("directoryname.pem", &constraints_der));
std::string name_us;
ASSERT_TRUE(LoadTestName("name-us.pem", &name_us));
std::string name_us_ca;
ASSERT_TRUE(LoadTestName("name-us-california.pem", &name_us_ca));
std::string name_us_ca_mountain_view;
ASSERT_TRUE(LoadTestName("name-us-california-mountain_view.pem",
&name_us_ca_mountain_view));
std::string name_us_az;
ASSERT_TRUE(LoadTestName("name-us-arizona.pem", &name_us_az));
std::string name_jp;
ASSERT_TRUE(LoadTestName("name-jp.pem", &name_jp));
std::string name_jp_tokyo;
ASSERT_TRUE(LoadTestName("name-jp-tokyo.pem", &name_jp_tokyo));
std::string name_de;
ASSERT_TRUE(LoadTestName("name-de.pem", &name_de));
std::string name_ca;
ASSERT_TRUE(LoadTestName("name-ca.pem", &name_ca));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// Not in any permitted subtree.
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_ca)));
// Within the permitted C=US subtree.
EXPECT_TRUE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us)));
// Within the permitted C=US subtree.
EXPECT_TRUE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us_az)));
// Within the permitted C=US subtree, however the excluded C=US,ST=California
// subtree takes priority.
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us_ca)));
// Within the permitted C=US subtree as well as the permitted
// C=US,ST=California,L=Mountain View subtree, however the excluded
// C=US,ST=California subtree still takes priority.
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us_ca_mountain_view)));
// Not in any permitted subtree, and also inside the extraneous excluded C=DE
// subtree.
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_de)));
// Not in any permitted subtree.
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_jp)));
// Within the permitted C=JP,ST=Tokyo subtree.
EXPECT_TRUE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_jp_tokyo)));
EXPECT_EQ(GENERAL_NAME_DIRECTORY_NAME,
name_constraints->constrained_name_types());
// Within the permitted C=US subtree.
EXPECT_TRUE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us),
nullptr /* subject_alt_names */));
// Within the permitted C=US subtree, however the excluded C=US,ST=California
// subtree takes priority.
EXPECT_FALSE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_ca),
nullptr /* subject_alt_names */));
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-permitted.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-dnsname.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-directoryname.pem", &san, &san_der));
EXPECT_FALSE(
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-ipaddress.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, DirectoryNamesExcludeOnly) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("directoryname-excluded.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
std::string name_empty;
ASSERT_TRUE(LoadTestName("name-empty.pem", &name_empty));
std::string name_us;
ASSERT_TRUE(LoadTestName("name-us.pem", &name_us));
std::string name_us_ca;
ASSERT_TRUE(LoadTestName("name-us-california.pem", &name_us_ca));
std::string name_us_ca_mountain_view;
ASSERT_TRUE(LoadTestName("name-us-california-mountain_view.pem",
&name_us_ca_mountain_view));
// Only "C=US,ST=California" is excluded, and since permitted is empty,
// any directoryName outside that is allowed.
EXPECT_TRUE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_empty)));
EXPECT_TRUE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us)));
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us_ca)));
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us_ca_mountain_view)));
}
TEST_P(ParseNameConstraints, DirectoryNamesExcludeAll) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("directoryname-excludeall.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
std::string name_empty;
ASSERT_TRUE(LoadTestName("name-empty.pem", &name_empty));
std::string name_us;
ASSERT_TRUE(LoadTestName("name-us.pem", &name_us));
std::string name_us_ca;
ASSERT_TRUE(LoadTestName("name-us-california.pem", &name_us_ca));
std::string name_us_ca_mountain_view;
ASSERT_TRUE(LoadTestName("name-us-california-mountain_view.pem",
&name_us_ca_mountain_view));
std::string name_jp;
ASSERT_TRUE(LoadTestName("name-jp.pem", &name_jp));
// "C=US" is in the permitted section, but since an empty
// directoryName is excluded, nothing is permitted.
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_empty)));
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us)));
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_us_ca)));
EXPECT_FALSE(name_constraints->IsPermittedDirectoryName(
SequenceValueFromString(&name_jp)));
}
TEST_P(ParseNameConstraints, IPAdresses) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// IPv4 tests:
// Not in any permitted range.
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 169, 0, 1)));
// Within the permitted 192.168.0.0/255.255.0.0 range.
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 168, 0, 1)));
// Within the permitted 192.168.0.0/255.255.0.0 range, however the
// excluded 192.168.5.0/255.255.255.0 takes priority.
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 5, 1)));
// Within the permitted 192.168.0.0/255.255.0.0 range as well as the
// permitted 192.168.5.32/255.255.255.224 range, however the excluded
// 192.168.5.0/255.255.255.0 still takes priority.
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 5, 33)));
// Not in any permitted range. (Just outside the
// 192.167.5.32/255.255.255.224 range.)
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 167, 5, 31)));
// Within the permitted 192.167.5.32/255.255.255.224 range.
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 167, 5, 32)));
// Within the permitted 192.167.5.32/255.255.255.224 range.
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 167, 5, 63)));
// Not in any permitted range. (Just outside the
// 192.167.5.32/255.255.255.224 range.)
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 167, 5, 64)));
// Not in any permitted range, and also inside the extraneous excluded
// 192.166.5.32/255.255.255.224 range.
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 166, 5, 32)));
// IPv6 tests:
// Not in any permitted range.
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 0, 0, 0, 1)));
// Within the permitted
// 102:304:506:708:90a:b0c::/ffff:ffff:ffff:ffff:ffff:ffff:: range.
EXPECT_TRUE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 0, 0, 0, 1)));
// Within the permitted
// 102:304:506:708:90a:b0c::/ffff:ffff:ffff:ffff:ffff:ffff:: range, however
// the excluded
// 102:304:506:708:90a:b0c:500:0/ffff:ffff:ffff:ffff:ffff:ffff:ff00:0 takes
// priority.
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 5, 0, 0, 1)));
// Within the permitted
// 102:304:506:708:90a:b0c::/ffff:ffff:ffff:ffff:ffff:ffff:: range as well
// as the permitted
// 102:304:506:708:90a:b0c:520:0/ffff:ffff:ffff:ffff:ffff:ffff:ff60:0,
// however the excluded
// 102:304:506:708:90a:b0c:500:0/ffff:ffff:ffff:ffff:ffff:ffff:ff00:0 takes
// priority.
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 5, 33, 0, 1)));
// Not in any permitted range. (Just outside the
// 102:304:506:708:90a:b0b:520:0/ffff:ffff:ffff:ffff:ffff:ffff:ff60:0
// range.)
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 11, 5, 31, 255, 255)));
// Within the permitted
// 102:304:506:708:90a:b0b:520:0/ffff:ffff:ffff:ffff:ffff:ffff:ff60:0 range.
EXPECT_TRUE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 11, 5, 32, 0, 0)));
// Within the permitted
// 102:304:506:708:90a:b0b:520:0/ffff:ffff:ffff:ffff:ffff:ffff:ff60:0 range.
EXPECT_TRUE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 11, 5, 63, 255, 255)));
// Not in any permitted range. (Just outside the
// 102:304:506:708:90a:b0b:520:0/ffff:ffff:ffff:ffff:ffff:ffff:ff60:0
// range.)
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 11, 5, 64, 0, 0)));
// Not in any permitted range, and also inside the extraneous excluded
// 102:304:506:708:90a:b0a:520:0/ffff:ffff:ffff:ffff:ffff:ffff:ff60:0 range.
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 10, 5, 33, 0, 1)));
EXPECT_EQ(GENERAL_NAME_IP_ADDRESS,
name_constraints->constrained_name_types());
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-permitted.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-dnsname.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-directoryname.pem", &san, &san_der));
EXPECT_TRUE(IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
ASSERT_TRUE(
LoadTestSubjectAltName("san-excluded-ipaddress.pem", &san, &san_der));
EXPECT_FALSE(
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, IPAdressesExcludeOnly) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress-excluded.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// Only 192.168.5.0/255.255.255.0 is excluded, and since permitted is empty,
// any iPAddress outside that is allowed.
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 168, 0, 1)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 5, 1)));
EXPECT_TRUE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 0, 0, 0, 1)));
}
TEST_P(ParseNameConstraints, IPAdressesExcludeAll) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress-excludeall.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
// 192.168.0.0/255.255.0.0 and
// 102:304:506:708:90a:b0c::/ffff:ffff:ffff:ffff:ffff:ffff:: are permitted,
// but since 0.0.0.0/0 and ::/0 are excluded nothing is permitted.
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 0, 1)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(1, 1, 1, 1)));
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1)));
EXPECT_FALSE(name_constraints->IsPermittedIP(
IPAddress(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 0, 0, 0, 1)));
}
TEST_P(ParseNameConstraints, IPAdressesNetmaskPermitSingleHost) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress-permit_singlehost.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress::IPv4AllZeros()));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 1)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 2)));
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 3)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 4)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(255, 255, 255, 255)));
}
TEST_P(ParseNameConstraints, IPAdressesNetmaskPermitPrefixLen31) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress-permit_prefix31.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress::IPv4AllZeros()));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 1)));
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 2)));
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 3)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 4)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 5)));
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress(255, 255, 255, 255)));
}
TEST_P(ParseNameConstraints, IPAdressesNetmaskPermitPrefixLen1) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress-permit_prefix1.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
EXPECT_FALSE(name_constraints->IsPermittedIP(IPAddress::IPv4AllZeros()));
EXPECT_FALSE(
name_constraints->IsPermittedIP(IPAddress(0x7F, 0xFF, 0xFF, 0xFF)));
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(0x80, 0, 0, 0)));
EXPECT_TRUE(
name_constraints->IsPermittedIP(IPAddress(0xFF, 0xFF, 0xFF, 0xFF)));
}
TEST_P(ParseNameConstraints, IPAdressesNetmaskPermitAll) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress-permit_all.pem", &a));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(
NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress::IPv4AllZeros()));
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(192, 168, 1, 1)));
EXPECT_TRUE(name_constraints->IsPermittedIP(IPAddress(255, 255, 255, 255)));
}
TEST_P(ParseNameConstraints, IPAdressesFailOnInvalidAddr) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint("ipaddress-invalid_addr.pem", &a));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&a), is_critical(), &errors));
}
TEST_P(ParseNameConstraints, IPAdressesFailOnInvalidMaskNotContiguous) {
std::string a;
ASSERT_TRUE(LoadTestNameConstraint(
"ipaddress-invalid_mask_not_contiguous_1.pem", &a));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(LoadTestNameConstraint(
"ipaddress-invalid_mask_not_contiguous_2.pem", &a));
EXPECT_FALSE(NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(LoadTestNameConstraint(
"ipaddress-invalid_mask_not_contiguous_3.pem", &a));
EXPECT_FALSE(NameConstraints::Create(der::Input(&a), is_critical(), &errors));
ASSERT_TRUE(LoadTestNameConstraint(
"ipaddress-invalid_mask_not_contiguous_4.pem", &a));
EXPECT_FALSE(NameConstraints::Create(der::Input(&a), is_critical(), &errors));
}
TEST_P(ParseNameConstraints, OtherNamesInPermitted) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("othername-permitted.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_OTHER_NAME,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-othername.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, OtherNamesInExcluded) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("othername-excluded.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_OTHER_NAME,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-othername.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, Rfc822NamesInPermitted) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("rfc822name-permitted.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_RFC822_NAME,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-rfc822name.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, Rfc822NamesInExcluded) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("rfc822name-excluded.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_RFC822_NAME,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-rfc822name.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, X400AddresssInPermitted) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("x400address-permitted.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_X400_ADDRESS,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-x400address.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, X400AddresssInExcluded) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("x400address-excluded.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_X400_ADDRESS,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-x400address.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, EdiPartyNamesInPermitted) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("edipartyname-permitted.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_EDI_PARTY_NAME,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-edipartyname.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, EdiPartyNamesInExcluded) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("edipartyname-excluded.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_EDI_PARTY_NAME,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-edipartyname.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, URIsInPermitted) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("uri-permitted.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_UNIFORM_RESOURCE_IDENTIFIER,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-uri.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, URIsInExcluded) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("uri-excluded.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_UNIFORM_RESOURCE_IDENTIFIER,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-uri.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, RegisteredIDsInPermitted) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("registeredid-permitted.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_REGISTERED_ID,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-registeredid.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints, RegisteredIDsInExcluded) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("registeredid-excluded.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
if (is_critical()) {
EXPECT_EQ(GENERAL_NAME_REGISTERED_ID,
name_constraints->constrained_name_types());
} else {
EXPECT_EQ(0, name_constraints->constrained_name_types());
}
std::string san_der;
std::unique_ptr<GeneralNames> san;
ASSERT_TRUE(LoadTestSubjectAltName("san-registeredid.pem", &san, &san_der));
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(), der::Input(), san.get()));
}
TEST_P(ParseNameConstraints,
failsOnGeneralSubtreeWithMinimumZeroEncodedUnnecessarily) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("dnsname-with_min_0.pem", &constraints_der));
// The value should not be in the DER encoding if it is the default. But this
// could be changed to allowed if there are buggy encoders out there that
// include it anyway.
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, FailsOnGeneralSubtreeWithMinimum) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("dnsname-with_min_1.pem", &constraints_der));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints,
failsOnGeneralSubtreeWithMinimumZeroEncodedUnnecessarilyAndMaximum) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("dnsname-with_min_0_and_max.pem",
&constraints_der));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, FailsOnGeneralSubtreeWithMinimumAndMaximum) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("dnsname-with_min_1_and_max.pem",
&constraints_der));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, FailsOnGeneralSubtreeWithMaximum) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("dnsname-with_max.pem", &constraints_der));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, FailsOnEmptyExtensionValue) {
std::string constraints_der = "";
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, FailsOnNoPermittedAndExcluded) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("invalid-no_subtrees.pem", &constraints_der));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, FailsOnEmptyPermitted) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("invalid-empty_permitted_subtree.pem",
&constraints_der));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, FailsOnEmptyExcluded) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("invalid-empty_excluded_subtree.pem",
&constraints_der));
CertErrors errors;
EXPECT_FALSE(NameConstraints::Create(der::Input(&constraints_der),
is_critical(), &errors));
}
TEST_P(ParseNameConstraints, IsPermittedCertSubjectEmailAddressIsOk) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("directoryname.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
std::string name_us_arizona_email;
ASSERT_TRUE(
LoadTestName("name-us-arizona-email.pem", &name_us_arizona_email));
// Name constraints don't contain rfc822Name, so emailAddress in subject is
// allowed regardless.
EXPECT_TRUE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_arizona_email),
nullptr /* subject_alt_names */));
}
TEST_P(ParseNameConstraints, IsPermittedCertSubjectEmailAddressIsNotOk) {
std::string constraints_der;
ASSERT_TRUE(
LoadTestNameConstraint("rfc822name-permitted.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
std::string name_us_arizona_email;
ASSERT_TRUE(
LoadTestName("name-us-arizona-email.pem", &name_us_arizona_email));
// Name constraints contain rfc822Name, so emailAddress in subject is not
// allowed if the constraints were critical.
EXPECT_EQ(!is_critical(),
IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_arizona_email),
nullptr /* subject_alt_names */));
}
// Hostname in commonName is not allowed (crbug.com/308330), so these are tests
// are not particularly interesting, just verifying that the commonName is
// ignored for dNSName constraints.
TEST_P(ParseNameConstraints, IsPermittedCertSubjectDnsNames) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint("directoryname_and_dnsname.pem",
&constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
std::string name_us_az_foocom;
ASSERT_TRUE(LoadTestName("name-us-arizona-foo.com.pem", &name_us_az_foocom));
// The subject is within permitted directoryName constraints, so permitted.
// (The commonName hostname is not within permitted dNSName constraints, so
// this would not be permitted if hostnames in commonName were checked.)
EXPECT_TRUE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_az_foocom),
nullptr /* subject_alt_names */));
std::string name_us_az_permitted;
ASSERT_TRUE(LoadTestName("name-us-arizona-permitted.example.com.pem",
&name_us_az_permitted));
// The subject is in permitted directoryName and the commonName is within
// permitted dNSName constraints, so this should be permitted regardless if
// hostnames in commonName are checked or not.
EXPECT_TRUE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_az_permitted),
nullptr /* subject_alt_names */));
std::string name_us_ca_permitted;
ASSERT_TRUE(LoadTestName("name-us-california-permitted.example.com.pem",
&name_us_ca_permitted));
// The subject is within the excluded C=US,ST=California directoryName, so
// this should not be allowed, regardless of checking the
// permitted.example.com in commonName.
EXPECT_FALSE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_ca_permitted),
nullptr /* subject_alt_names */));
}
// IP addresses in commonName are not allowed (crbug.com/308330), so these are
// tests are not particularly interesting, just verifying that the commonName is
// ignored for iPAddress constraints.
TEST_P(ParseNameConstraints, IsPermittedCertSubjectIpAddresses) {
std::string constraints_der;
ASSERT_TRUE(LoadTestNameConstraint(
"directoryname_and_dnsname_and_ipaddress.pem", &constraints_der));
CertErrors errors;
std::unique_ptr<NameConstraints> name_constraints(NameConstraints::Create(
der::Input(&constraints_der), is_critical(), &errors));
ASSERT_TRUE(name_constraints);
std::string name_us_az_1_1_1_1;
ASSERT_TRUE(LoadTestName("name-us-arizona-1.1.1.1.pem", &name_us_az_1_1_1_1));
// The subject is within permitted directoryName constraints, so permitted.
// (The commonName IP address is not within permitted iPAddresses constraints,
// so this would not be permitted if IP addresses in commonName were checked.)
EXPECT_TRUE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_az_1_1_1_1),
nullptr /* subject_alt_names */));
std::string name_us_az_192_168_1_1;
ASSERT_TRUE(
LoadTestName("name-us-arizona-192.168.1.1.pem", &name_us_az_192_168_1_1));
// The subject is in permitted directoryName and the commonName is within
// permitted iPAddress constraints, so this should be permitted regardless if
// IP addresses in commonName are checked or not.
EXPECT_TRUE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_az_192_168_1_1),
nullptr /* subject_alt_names */));
std::string name_us_ca_192_168_1_1;
ASSERT_TRUE(LoadTestName("name-us-california-192.168.1.1.pem",
&name_us_ca_192_168_1_1));
// The subject is within the excluded C=US,ST=California directoryName, so
// this should not be allowed, regardless of checking the
// IP address in commonName.
EXPECT_FALSE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_ca_192_168_1_1),
nullptr /* subject_alt_names */));
std::string name_us_az_ipv6;
ASSERT_TRUE(LoadTestName("name-us-arizona-ipv6.pem", &name_us_az_ipv6));
// The subject is within permitted directoryName constraints, so permitted.
// (The commonName is an ipv6 address which wasn't supported in the past, but
// since commonName checking is ignored entirely, this is permitted.)
EXPECT_TRUE(IsPermittedCert(name_constraints.get(),
SequenceValueFromString(&name_us_az_ipv6),
nullptr /* subject_alt_names */));
}
} // namespace net