Mirror of BoringSSL (grpc依赖)
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613 lines
27 KiB
613 lines
27 KiB
// Copyright 2015 The Chromium Authors |
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// Use of this source code is governed by a BSD-style license that can be |
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// found in the LICENSE file. |
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#include "verify_name_match.h" |
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#include "string_util.h" |
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#include "test_helpers.h" |
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#include <gtest/gtest.h> |
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namespace bssl { |
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namespace { |
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// Loads test data from file. The filename is constructed from the parameters: |
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// |prefix| describes the type of data being tested, e.g. "ascii", |
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// "unicode_bmp", "unicode_supplementary", and "invalid". |
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// |value_type| indicates what ASN.1 type is used to encode the data. |
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// |suffix| indicates any additional modifications, such as caseswapping, |
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// whitespace adding, etc. |
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::testing::AssertionResult LoadTestData(const std::string& prefix, |
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const std::string& value_type, |
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const std::string& suffix, |
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std::string* result) { |
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std::string path = "testdata/verify_name_match_unittest/names/" + prefix + |
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"-" + value_type + "-" + suffix + ".pem"; |
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const PemBlockMapping mappings[] = { |
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{"NAME", result}, |
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}; |
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return ReadTestDataFromPemFile(path, mappings); |
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} |
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bool TypesAreComparable(const std::string& type_1, const std::string& type_2) { |
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if (type_1 == type_2) |
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return true; |
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if ((type_1 == "PRINTABLESTRING" || type_1 == "UTF8" || |
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type_1 == "BMPSTRING" || type_1 == "UNIVERSALSTRING") && |
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(type_2 == "PRINTABLESTRING" || type_2 == "UTF8" || |
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type_2 == "BMPSTRING" || type_2 == "UNIVERSALSTRING")) { |
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return true; |
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} |
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return false; |
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} |
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// All string types. |
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static const char* kValueTypes[] = {"PRINTABLESTRING", "T61STRING", "UTF8", |
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"BMPSTRING", "UNIVERSALSTRING"}; |
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// String types that can encode the Unicode Basic Multilingual Plane. |
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static const char* kUnicodeBMPValueTypes[] = {"UTF8", "BMPSTRING", |
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"UNIVERSALSTRING"}; |
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// String types that can encode the Unicode Supplementary Planes. |
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static const char* kUnicodeSupplementaryValueTypes[] = {"UTF8", |
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"UNIVERSALSTRING"}; |
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static const char* kMangleTypes[] = {"unmangled", "case_swap", |
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"extra_whitespace"}; |
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} // namespace |
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class VerifyNameMatchSimpleTest |
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: public ::testing::TestWithParam< |
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::testing::tuple<const char*, const char*>> { |
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public: |
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std::string value_type() const { return ::testing::get<0>(GetParam()); } |
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std::string suffix() const { return ::testing::get<1>(GetParam()); } |
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}; |
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// Compare each input against itself, verifies that all input data is parsed |
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// successfully. |
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TEST_P(VerifyNameMatchSimpleTest, ExactEquality) { |
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std::string der; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix(), &der)); |
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EXPECT_TRUE(VerifyNameMatch(SequenceValueFromString(der), |
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SequenceValueFromString(der))); |
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std::string der_extra_attr; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix() + "-extra_attr", |
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&der_extra_attr)); |
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EXPECT_TRUE(VerifyNameMatch(SequenceValueFromString(der_extra_attr), |
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SequenceValueFromString(der_extra_attr))); |
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std::string der_extra_rdn; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix() + "-extra_rdn", |
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&der_extra_rdn)); |
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EXPECT_TRUE(VerifyNameMatch(SequenceValueFromString(der_extra_rdn), |
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SequenceValueFromString(der_extra_rdn))); |
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} |
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// Ensure that a Name does not match another Name which is exactly the same but |
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// with an extra attribute in one Relative Distinguished Name. |
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TEST_P(VerifyNameMatchSimpleTest, ExtraAttrDoesNotMatch) { |
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std::string der; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix(), &der)); |
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std::string der_extra_attr; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix() + "-extra_attr", |
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&der_extra_attr)); |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der), |
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SequenceValueFromString(der_extra_attr))); |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der_extra_attr), |
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SequenceValueFromString(der))); |
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} |
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// Ensure that a Name does not match another Name which has the same number of |
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// RDNs and attributes, but where one of the attributes is duplicated in one of |
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// the names but not in the other. |
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TEST_P(VerifyNameMatchSimpleTest, DupeAttrDoesNotMatch) { |
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std::string der_dupe_attr; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix() + "-dupe_attr", |
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&der_dupe_attr)); |
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std::string der_extra_attr; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix() + "-extra_attr", |
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&der_extra_attr)); |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der_dupe_attr), |
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SequenceValueFromString(der_extra_attr))); |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der_extra_attr), |
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SequenceValueFromString(der_dupe_attr))); |
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// However, the name with a dupe attribute should match itself. |
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EXPECT_TRUE(VerifyNameMatch(SequenceValueFromString(der_dupe_attr), |
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SequenceValueFromString(der_dupe_attr))); |
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} |
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// Ensure that a Name does not match another Name which is exactly the same but |
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// with an extra Relative Distinguished Name. |
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TEST_P(VerifyNameMatchSimpleTest, ExtraRdnDoesNotMatch) { |
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std::string der; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix(), &der)); |
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std::string der_extra_rdn; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), suffix() + "-extra_rdn", |
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&der_extra_rdn)); |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der), |
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SequenceValueFromString(der_extra_rdn))); |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der_extra_rdn), |
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SequenceValueFromString(der))); |
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} |
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// Runs VerifyNameMatchSimpleTest for all combinations of value_type and and |
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// suffix. |
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INSTANTIATE_TEST_SUITE_P(InstantiationName, |
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VerifyNameMatchSimpleTest, |
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::testing::Combine(::testing::ValuesIn(kValueTypes), |
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::testing::ValuesIn(kMangleTypes))); |
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class VerifyNameMatchNormalizationTest |
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: public ::testing::TestWithParam<::testing::tuple<bool, const char*>> { |
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public: |
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bool expected_result() const { return ::testing::get<0>(GetParam()); } |
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std::string value_type() const { return ::testing::get<1>(GetParam()); } |
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}; |
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// Verify matching is case insensitive (for the types which currently support |
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// normalization). |
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TEST_P(VerifyNameMatchNormalizationTest, CaseInsensitivity) { |
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std::string normal; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), "unmangled", &normal)); |
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std::string case_swap; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), "case_swap", &case_swap)); |
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EXPECT_EQ(expected_result(), |
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VerifyNameMatch(SequenceValueFromString(normal), |
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SequenceValueFromString(case_swap))); |
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EXPECT_EQ(expected_result(), |
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VerifyNameMatch(SequenceValueFromString(case_swap), |
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SequenceValueFromString(normal))); |
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} |
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// Verify matching folds whitespace (for the types which currently support |
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// normalization). |
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TEST_P(VerifyNameMatchNormalizationTest, CollapseWhitespace) { |
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std::string normal; |
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ASSERT_TRUE(LoadTestData("ascii", value_type(), "unmangled", &normal)); |
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std::string whitespace; |
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ASSERT_TRUE( |
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LoadTestData("ascii", value_type(), "extra_whitespace", &whitespace)); |
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EXPECT_EQ(expected_result(), |
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VerifyNameMatch(SequenceValueFromString(normal), |
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SequenceValueFromString(whitespace))); |
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EXPECT_EQ(expected_result(), |
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VerifyNameMatch(SequenceValueFromString(whitespace), |
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SequenceValueFromString(normal))); |
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} |
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// Runs VerifyNameMatchNormalizationTest for each (expected_result, value_type) |
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// tuple. |
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INSTANTIATE_TEST_SUITE_P( |
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InstantiationName, |
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VerifyNameMatchNormalizationTest, |
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::testing::Values( |
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::testing::make_tuple(true, |
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static_cast<const char*>("PRINTABLESTRING")), |
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::testing::make_tuple(false, static_cast<const char*>("T61STRING")), |
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::testing::make_tuple(true, static_cast<const char*>("UTF8")), |
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::testing::make_tuple(true, static_cast<const char*>("BMPSTRING")), |
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::testing::make_tuple(true, |
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static_cast<const char*>("UNIVERSALSTRING")))); |
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class VerifyNameMatchDifferingTypesTest |
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: public ::testing::TestWithParam< |
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::testing::tuple<const char*, const char*>> { |
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public: |
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std::string value_type_1() const { return ::testing::get<0>(GetParam()); } |
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std::string value_type_2() const { return ::testing::get<1>(GetParam()); } |
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}; |
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TEST_P(VerifyNameMatchDifferingTypesTest, NormalizableTypesAreEqual) { |
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std::string der_1; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_1(), "unmangled", &der_1)); |
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std::string der_2; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_2(), "unmangled", &der_2)); |
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if (TypesAreComparable(value_type_1(), value_type_2())) { |
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EXPECT_TRUE(VerifyNameMatch(SequenceValueFromString(der_1), |
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SequenceValueFromString(der_2))); |
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} else { |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der_1), |
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SequenceValueFromString(der_2))); |
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} |
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} |
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TEST_P(VerifyNameMatchDifferingTypesTest, NormalizableTypesInSubtrees) { |
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std::string der_1; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_1(), "unmangled", &der_1)); |
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std::string der_1_extra_rdn; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_1(), "unmangled-extra_rdn", |
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&der_1_extra_rdn)); |
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std::string der_1_extra_attr; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_1(), "unmangled-extra_attr", |
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&der_1_extra_attr)); |
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std::string der_2; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_2(), "unmangled", &der_2)); |
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std::string der_2_extra_rdn; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_2(), "unmangled-extra_rdn", |
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&der_2_extra_rdn)); |
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std::string der_2_extra_attr; |
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ASSERT_TRUE(LoadTestData("ascii", value_type_2(), "unmangled-extra_attr", |
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&der_2_extra_attr)); |
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if (TypesAreComparable(value_type_1(), value_type_2())) { |
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EXPECT_TRUE(VerifyNameInSubtree(SequenceValueFromString(der_1), |
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SequenceValueFromString(der_2))); |
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EXPECT_TRUE(VerifyNameInSubtree(SequenceValueFromString(der_2), |
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SequenceValueFromString(der_1))); |
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EXPECT_TRUE(VerifyNameInSubtree(SequenceValueFromString(der_1_extra_rdn), |
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SequenceValueFromString(der_2))); |
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EXPECT_TRUE(VerifyNameInSubtree(SequenceValueFromString(der_2_extra_rdn), |
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SequenceValueFromString(der_1))); |
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} else { |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_1), |
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SequenceValueFromString(der_2))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_2), |
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SequenceValueFromString(der_1))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_1_extra_rdn), |
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SequenceValueFromString(der_2))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_2_extra_rdn), |
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SequenceValueFromString(der_1))); |
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} |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_1), |
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SequenceValueFromString(der_2_extra_rdn))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_2), |
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SequenceValueFromString(der_1_extra_rdn))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_1_extra_attr), |
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SequenceValueFromString(der_2))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_2_extra_attr), |
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SequenceValueFromString(der_1))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_1), |
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SequenceValueFromString(der_2_extra_attr))); |
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EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(der_2), |
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SequenceValueFromString(der_1_extra_attr))); |
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} |
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// Runs VerifyNameMatchDifferingTypesTest for all combinations of value types in |
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// value_type1 and value_type_2. |
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INSTANTIATE_TEST_SUITE_P(InstantiationName, |
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VerifyNameMatchDifferingTypesTest, |
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::testing::Combine(::testing::ValuesIn(kValueTypes), |
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::testing::ValuesIn(kValueTypes))); |
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class VerifyNameMatchUnicodeConversionTest |
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: public ::testing::TestWithParam< |
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::testing::tuple<const char*, |
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::testing::tuple<const char*, const char*>>> { |
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public: |
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std::string prefix() const { return ::testing::get<0>(GetParam()); } |
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std::string value_type_1() const { |
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return ::testing::get<0>(::testing::get<1>(GetParam())); |
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} |
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std::string value_type_2() const { |
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return ::testing::get<1>(::testing::get<1>(GetParam())); |
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} |
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}; |
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TEST_P(VerifyNameMatchUnicodeConversionTest, UnicodeConversionsAreEqual) { |
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std::string der_1; |
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ASSERT_TRUE(LoadTestData(prefix(), value_type_1(), "unmangled", &der_1)); |
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std::string der_2; |
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ASSERT_TRUE(LoadTestData(prefix(), value_type_2(), "unmangled", &der_2)); |
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EXPECT_TRUE(VerifyNameMatch(SequenceValueFromString(der_1), |
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SequenceValueFromString(der_2))); |
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} |
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// Runs VerifyNameMatchUnicodeConversionTest with prefix="unicode_bmp" for all |
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// combinations of Basic Multilingual Plane-capable value types in value_type1 |
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// and value_type_2. |
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INSTANTIATE_TEST_SUITE_P( |
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BMPConversion, |
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VerifyNameMatchUnicodeConversionTest, |
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::testing::Combine( |
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::testing::Values("unicode_bmp"), |
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::testing::Combine(::testing::ValuesIn(kUnicodeBMPValueTypes), |
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::testing::ValuesIn(kUnicodeBMPValueTypes)))); |
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// Runs VerifyNameMatchUnicodeConversionTest with prefix="unicode_supplementary" |
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// for all combinations of Unicode Supplementary Plane-capable value types in |
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// value_type1 and value_type_2. |
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INSTANTIATE_TEST_SUITE_P( |
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SMPConversion, |
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VerifyNameMatchUnicodeConversionTest, |
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::testing::Combine( |
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::testing::Values("unicode_supplementary"), |
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::testing::Combine( |
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::testing::ValuesIn(kUnicodeSupplementaryValueTypes), |
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::testing::ValuesIn(kUnicodeSupplementaryValueTypes)))); |
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// Matching should fail if a PrintableString contains invalid characters. |
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TEST(VerifyNameMatchInvalidDataTest, FailOnInvalidPrintableStringChars) { |
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std::string der; |
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ASSERT_TRUE(LoadTestData("ascii", "PRINTABLESTRING", "unmangled", &der)); |
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// Find a known location inside a PrintableString in the DER-encoded data. |
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size_t replace_location = der.find("0123456789"); |
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ASSERT_NE(std::string::npos, replace_location); |
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for (int c = 0; c < 256; ++c) { |
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SCOPED_TRACE(c); |
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if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || |
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(c >= '0' && c <= '9')) { |
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continue; |
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} |
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switch (c) { |
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case ' ': |
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case '\'': |
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case '(': |
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case ')': |
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case '*': |
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case '+': |
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case ',': |
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case '-': |
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case '.': |
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case '/': |
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case ':': |
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case '=': |
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case '?': |
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continue; |
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} |
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der.replace(replace_location, 1, 1, c); |
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// Verification should fail due to the invalid character. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(der), |
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SequenceValueFromString(der))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE( |
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NormalizeName(SequenceValueFromString(der), &normalized_der, &errors)); |
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} |
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} |
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// Matching should fail if an IA5String contains invalid characters. |
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TEST(VerifyNameMatchInvalidDataTest, FailOnInvalidIA5StringChars) { |
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std::string der; |
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ASSERT_TRUE(LoadTestData("ascii", "mixed", "rdn_dupetype_sorting_1", &der)); |
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// Find a known location inside an IA5String in the DER-encoded data. |
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size_t replace_location = der.find("eXaMple"); |
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ASSERT_NE(std::string::npos, replace_location); |
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for (int c = 0; c < 256; ++c) { |
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SCOPED_TRACE(c); |
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der.replace(replace_location, 1, 1, c); |
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bool expected_result = (c <= 127); |
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EXPECT_EQ(expected_result, VerifyNameMatch(SequenceValueFromString(der), |
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SequenceValueFromString(der))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_EQ(expected_result, NormalizeName(SequenceValueFromString(der), |
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&normalized_der, &errors)); |
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} |
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} |
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TEST(VerifyNameMatchInvalidDataTest, FailOnAttributeTypeAndValueExtraData) { |
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std::string invalid; |
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ASSERT_TRUE( |
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LoadTestData("invalid", "AttributeTypeAndValue", "extradata", &invalid)); |
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// Verification should fail due to extra element in AttributeTypeAndValue |
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// sequence. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
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SequenceValueFromString(invalid))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
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&errors)); |
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} |
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TEST(VerifyNameMatchInvalidDataTest, FailOnAttributeTypeAndValueShort) { |
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std::string invalid; |
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ASSERT_TRUE(LoadTestData("invalid", "AttributeTypeAndValue", "onlyOneElement", |
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&invalid)); |
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// Verification should fail due to AttributeTypeAndValue sequence having only |
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// one element. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
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SequenceValueFromString(invalid))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
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&errors)); |
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} |
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TEST(VerifyNameMatchInvalidDataTest, FailOnAttributeTypeAndValueEmpty) { |
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std::string invalid; |
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ASSERT_TRUE( |
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LoadTestData("invalid", "AttributeTypeAndValue", "empty", &invalid)); |
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// Verification should fail due to empty AttributeTypeAndValue sequence. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
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SequenceValueFromString(invalid))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
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&errors)); |
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} |
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TEST(VerifyNameMatchInvalidDataTest, FailOnBadAttributeType) { |
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std::string invalid; |
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ASSERT_TRUE(LoadTestData("invalid", "AttributeTypeAndValue", |
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"badAttributeType", &invalid)); |
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// Verification should fail due to Attribute Type not being an OID. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
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SequenceValueFromString(invalid))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
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&errors)); |
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} |
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TEST(VerifyNameMatchInvalidDataTest, FailOnAttributeTypeAndValueNotSequence) { |
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std::string invalid; |
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ASSERT_TRUE(LoadTestData("invalid", "AttributeTypeAndValue", "setNotSequence", |
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&invalid)); |
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// Verification should fail due to AttributeTypeAndValue being a Set instead |
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// of a Sequence. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
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SequenceValueFromString(invalid))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
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&errors)); |
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} |
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TEST(VerifyNameMatchInvalidDataTest, FailOnRdnNotSet) { |
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std::string invalid; |
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ASSERT_TRUE(LoadTestData("invalid", "RDN", "sequenceInsteadOfSet", &invalid)); |
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// Verification should fail due to RDN being a Sequence instead of a Set. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
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SequenceValueFromString(invalid))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
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&errors)); |
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} |
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TEST(VerifyNameMatchInvalidDataTest, FailOnEmptyRdn) { |
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std::string invalid; |
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ASSERT_TRUE(LoadTestData("invalid", "RDN", "empty", &invalid)); |
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// Verification should fail due to RDN having zero AttributeTypeAndValues. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
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SequenceValueFromString(invalid))); |
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std::string normalized_der; |
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CertErrors errors; |
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EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
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&errors)); |
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} |
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|
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// Matching should fail if a BMPString contains surrogates. |
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TEST(VerifyNameMatchInvalidDataTest, FailOnBmpStringSurrogates) { |
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std::string normal; |
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ASSERT_TRUE(LoadTestData("unicode_bmp", "BMPSTRING", "unmangled", &normal)); |
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// Find a known location inside a BMPSTRING in the DER-encoded data. |
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size_t replace_location = normal.find("\x67\x71\x4e\xac"); |
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ASSERT_NE(std::string::npos, replace_location); |
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// Replace with U+1D400 MATHEMATICAL BOLD CAPITAL A, which requires surrogates |
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// to represent. |
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std::string invalid = |
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normal.replace(replace_location, 4, std::string("\xd8\x35\xdc\x00", 4)); |
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// Verification should fail due to the invalid codepoints. |
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EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(invalid), |
|
SequenceValueFromString(invalid))); |
|
std::string normalized_der; |
|
CertErrors errors; |
|
EXPECT_FALSE(NormalizeName(SequenceValueFromString(invalid), &normalized_der, |
|
&errors)); |
|
} |
|
|
|
TEST(VerifyNameMatchTest, EmptyNameMatching) { |
|
std::string empty; |
|
ASSERT_TRUE(LoadTestData("valid", "Name", "empty", &empty)); |
|
// Empty names are equal. |
|
EXPECT_TRUE(VerifyNameMatch(SequenceValueFromString(empty), |
|
SequenceValueFromString(empty))); |
|
// An empty name normalized is unchanged. |
|
std::string normalized_empty_der; |
|
CertErrors errors; |
|
EXPECT_TRUE(NormalizeName(SequenceValueFromString(empty), |
|
&normalized_empty_der, &errors)); |
|
EXPECT_EQ(SequenceValueFromString(empty), der::Input(normalized_empty_der)); |
|
|
|
// An empty name is not equal to non-empty name. |
|
std::string non_empty; |
|
ASSERT_TRUE( |
|
LoadTestData("ascii", "PRINTABLESTRING", "unmangled", &non_empty)); |
|
EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(empty), |
|
SequenceValueFromString(non_empty))); |
|
EXPECT_FALSE(VerifyNameMatch(SequenceValueFromString(non_empty), |
|
SequenceValueFromString(empty))); |
|
} |
|
|
|
// Matching should succeed when the RDNs are sorted differently but are still |
|
// equal after normalizing. |
|
TEST(VerifyNameMatchRDNSorting, Simple) { |
|
std::string a; |
|
ASSERT_TRUE(LoadTestData("ascii", "PRINTABLESTRING", "rdn_sorting_1", &a)); |
|
std::string b; |
|
ASSERT_TRUE(LoadTestData("ascii", "PRINTABLESTRING", "rdn_sorting_2", &b)); |
|
EXPECT_TRUE( |
|
VerifyNameMatch(SequenceValueFromString(a), SequenceValueFromString(b))); |
|
EXPECT_TRUE( |
|
VerifyNameMatch(SequenceValueFromString(b), SequenceValueFromString(a))); |
|
} |
|
|
|
// Matching should succeed when the RDNs are sorted differently but are still |
|
// equal after normalizing, even in malformed RDNs that contain multiple |
|
// elements with the same type. |
|
TEST(VerifyNameMatchRDNSorting, DuplicateTypes) { |
|
std::string a; |
|
ASSERT_TRUE(LoadTestData("ascii", "mixed", "rdn_dupetype_sorting_1", &a)); |
|
std::string b; |
|
ASSERT_TRUE(LoadTestData("ascii", "mixed", "rdn_dupetype_sorting_2", &b)); |
|
EXPECT_TRUE( |
|
VerifyNameMatch(SequenceValueFromString(a), SequenceValueFromString(b))); |
|
EXPECT_TRUE( |
|
VerifyNameMatch(SequenceValueFromString(b), SequenceValueFromString(a))); |
|
} |
|
|
|
TEST(VerifyNameInSubtreeInvalidDataTest, FailOnEmptyRdn) { |
|
std::string valid; |
|
ASSERT_TRUE(LoadTestData("ascii", "PRINTABLESTRING", "unmangled", &valid)); |
|
std::string invalid; |
|
ASSERT_TRUE(LoadTestData("invalid", "RDN", "empty", &invalid)); |
|
// For both |name| and |parent|, a RelativeDistinguishedName must have at |
|
// least one AttributeTypeAndValue. |
|
EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(valid), |
|
SequenceValueFromString(invalid))); |
|
EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(invalid), |
|
SequenceValueFromString(valid))); |
|
EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(invalid), |
|
SequenceValueFromString(invalid))); |
|
} |
|
|
|
TEST(VerifyNameInSubtreeTest, EmptyNameMatching) { |
|
std::string empty; |
|
ASSERT_TRUE(LoadTestData("valid", "Name", "empty", &empty)); |
|
std::string non_empty; |
|
ASSERT_TRUE( |
|
LoadTestData("ascii", "PRINTABLESTRING", "unmangled", &non_empty)); |
|
// Empty name is in the subtree defined by empty name. |
|
EXPECT_TRUE(VerifyNameInSubtree(SequenceValueFromString(empty), |
|
SequenceValueFromString(empty))); |
|
// Any non-empty name is in the subtree defined by empty name. |
|
EXPECT_TRUE(VerifyNameInSubtree(SequenceValueFromString(non_empty), |
|
SequenceValueFromString(empty))); |
|
// Empty name is not in the subtree defined by non-empty name. |
|
EXPECT_FALSE(VerifyNameInSubtree(SequenceValueFromString(empty), |
|
SequenceValueFromString(non_empty))); |
|
} |
|
|
|
// Verify that the normalized output matches the pre-generated expected value |
|
// for a single larger input that exercises all of the string types, unicode |
|
// (basic and supplemental planes), whitespace collapsing, case folding, as |
|
// well as SET sorting. |
|
TEST(NameNormalizationTest, TestEverything) { |
|
std::string expected_normalized_der; |
|
ASSERT_TRUE( |
|
LoadTestData("unicode", "mixed", "normalized", &expected_normalized_der)); |
|
|
|
std::string raw_der; |
|
ASSERT_TRUE(LoadTestData("unicode", "mixed", "unnormalized", &raw_der)); |
|
std::string normalized_der; |
|
CertErrors errors; |
|
ASSERT_TRUE(NormalizeName(SequenceValueFromString(raw_der), &normalized_der, |
|
&errors)); |
|
EXPECT_EQ(SequenceValueFromString(expected_normalized_der), |
|
der::Input(normalized_der)); |
|
// Re-normalizing an already normalized Name should not change it. |
|
std::string renormalized_der; |
|
ASSERT_TRUE( |
|
NormalizeName(der::Input(normalized_der), &renormalized_der, &errors)); |
|
EXPECT_EQ(normalized_der, renormalized_der); |
|
} |
|
|
|
// Unknown AttributeValue types normalize as-is, even non-primitive tags. |
|
TEST(NameNormalizationTest, NormalizeCustom) { |
|
std::string raw_der; |
|
ASSERT_TRUE(LoadTestData("custom", "custom", "normalized", &raw_der)); |
|
|
|
std::string normalized_der; |
|
CertErrors errors; |
|
ASSERT_TRUE(NormalizeName(SequenceValueFromString(raw_der), &normalized_der, |
|
&errors)); |
|
EXPECT_EQ(SequenceValueFromString(raw_der), der::Input(normalized_der)); |
|
} |
|
|
|
} // namespace net
|
|
|