src/pki/trust_store_collection_unittest.cc - third_party/boringssl - Git at Google

 // Copyright 2016 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "trust_store_collection.h"

 #include <gtest/gtest.h>
 #include "test_helpers.h"
 #include "trust_store_in_memory.h"

 namespace bssl {

 namespace {

 class TrustStoreCollectionTest : public testing::Test {
  public:
   void SetUp() override {
     ParsedCertificateList chain;
     ASSERT_TRUE(ReadCertChainFromFile(
         "testdata/verify_certificate_chain_unittest/key-rollover/oldchain.pem",
         &chain));

     ASSERT_EQ(3U, chain.size());
     target_ = chain[0];
     oldintermediate_ = chain[1];
     oldroot_ = chain[2];
     ASSERT_TRUE(target_);
     ASSERT_TRUE(oldintermediate_);
     ASSERT_TRUE(oldroot_);

     ASSERT_TRUE(
         ReadCertChainFromFile("testdata/verify_certificate_chain_unittest/"
                               "key-rollover/longrolloverchain.pem",
                               &chain));

     ASSERT_EQ(5U, chain.size());
     newintermediate_ = chain[1];
     newroot_ = chain[2];
     newrootrollover_ = chain[3];
     ASSERT_TRUE(newintermediate_);
     ASSERT_TRUE(newroot_);
     ASSERT_TRUE(newrootrollover_);
   }

  protected:
   std::shared_ptr<const ParsedCertificate> oldroot_;
   std::shared_ptr<const ParsedCertificate> newroot_;
   std::shared_ptr<const ParsedCertificate> newrootrollover_;

   std::shared_ptr<const ParsedCertificate> target_;
   std::shared_ptr<const ParsedCertificate> oldintermediate_;
   std::shared_ptr<const ParsedCertificate> newintermediate_;
 };

 // Collection contains no stores, should return no results.
 TEST_F(TrustStoreCollectionTest, NoStores) {
   ParsedCertificateList issuers;

   TrustStoreCollection collection;
   collection.SyncGetIssuersOf(target_.get(), &issuers);

   EXPECT_TRUE(issuers.empty());
 }

 // Collection contains only one store.
 TEST_F(TrustStoreCollectionTest, OneStore) {
   ParsedCertificateList issuers;

   TrustStoreCollection collection;
   TrustStoreInMemory in_memory;
   in_memory.AddTrustAnchor(newroot_);
   collection.AddTrustStore(&in_memory);
   collection.SyncGetIssuersOf(newintermediate_.get(), &issuers);

   ASSERT_EQ(1U, issuers.size());
   EXPECT_EQ(newroot_.get(), issuers[0].get());

   // newroot_ is trusted.
   CertificateTrust trust = collection.GetTrust(newroot_.get());
   EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
             trust.ToDebugString());

   // oldroot_ is not.
   trust = collection.GetTrust(oldroot_.get());
   EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
             trust.ToDebugString());
 }

 // SyncGetIssuersOf() should append to its output parameters rather than assign
 // them.
 TEST_F(TrustStoreCollectionTest, OutputVectorsAppendedTo) {
   ParsedCertificateList issuers;

   // Populate the out-parameter with some values.
   issuers.resize(3);

   TrustStoreCollection collection;
   TrustStoreInMemory in_memory;
   in_memory.AddTrustAnchor(newroot_);
   collection.AddTrustStore(&in_memory);
   collection.SyncGetIssuersOf(newintermediate_.get(), &issuers);

   ASSERT_EQ(4U, issuers.size());
   EXPECT_EQ(newroot_.get(), issuers[3].get());

   // newroot_ is trusted.
   CertificateTrust trust = collection.GetTrust(newroot_.get());
   EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
             trust.ToDebugString());

   // newrootrollover_ is not.
   trust = collection.GetTrust(newrootrollover_.get());
   EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
             trust.ToDebugString());
 }

 // Collection contains two stores.
 TEST_F(TrustStoreCollectionTest, TwoStores) {
   ParsedCertificateList issuers;

   TrustStoreCollection collection;
   TrustStoreInMemory in_memory1;
   TrustStoreInMemory in_memory2;
   in_memory1.AddTrustAnchor(newroot_);
   in_memory2.AddTrustAnchor(oldroot_);
   collection.AddTrustStore(&in_memory1);
   collection.AddTrustStore(&in_memory2);
   collection.SyncGetIssuersOf(newintermediate_.get(), &issuers);

   ASSERT_EQ(2U, issuers.size());
   EXPECT_EQ(newroot_.get(), issuers[0].get());
   EXPECT_EQ(oldroot_.get(), issuers[1].get());

   // newroot_ is trusted.
   CertificateTrust trust = collection.GetTrust(newroot_.get());
   EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
             trust.ToDebugString());

   // oldroot_ is trusted.
   trust = collection.GetTrust(oldroot_.get());
   EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
             trust.ToDebugString());

   // newrootrollover_ is not.
   trust = collection.GetTrust(newrootrollover_.get());
   EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
             trust.ToDebugString());
 }

 // Collection contains two stores. The certificate is marked as trusted in one,
 // but distrusted in the other.
 TEST_F(TrustStoreCollectionTest, DistrustTakesPriority) {
   ParsedCertificateList issuers;

   TrustStoreCollection collection;
   TrustStoreInMemory in_memory1;
   TrustStoreInMemory in_memory2;

   // newroot_ is trusted in store1, distrusted in store2.
   in_memory1.AddTrustAnchor(newroot_);
   in_memory2.AddDistrustedCertificateForTest(newroot_);

   // oldintermediate is distrusted in store1, trusted in store2.
   in_memory1.AddDistrustedCertificateForTest(oldintermediate_);
   in_memory2.AddTrustAnchor(oldintermediate_);

   collection.AddTrustStore(&in_memory1);
   collection.AddTrustStore(&in_memory2);

   // newroot_ is distrusted..
   CertificateTrust trust = collection.GetTrust(newroot_.get());
   EXPECT_EQ(CertificateTrust::ForDistrusted().ToDebugString(),
             trust.ToDebugString());

   // oldintermediate_ is distrusted.
   trust = collection.GetTrust(oldintermediate_.get());
   EXPECT_EQ(CertificateTrust::ForDistrusted().ToDebugString(),
             trust.ToDebugString());

   // newrootrollover_ is unspecified.
   trust = collection.GetTrust(newrootrollover_.get());
   EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
             trust.ToDebugString());
 }

 }  // namespace

 }  // namespace bssl
	// Copyright 2016 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "trust_store_collection.h"

	#include <gtest/gtest.h>
	#include "test_helpers.h"
	#include "trust_store_in_memory.h"

	namespace bssl {

	namespace {

	class TrustStoreCollectionTest : public testing::Test {
	public:
	void SetUp() override {
	ParsedCertificateList chain;
	ASSERT_TRUE(ReadCertChainFromFile(
	"testdata/verify_certificate_chain_unittest/key-rollover/oldchain.pem",
	&chain));

	ASSERT_EQ(3U, chain.size());
	target_ = chain[0];
	oldintermediate_ = chain[1];
	oldroot_ = chain[2];
	ASSERT_TRUE(target_);
	ASSERT_TRUE(oldintermediate_);
	ASSERT_TRUE(oldroot_);

	ASSERT_TRUE(
	ReadCertChainFromFile("testdata/verify_certificate_chain_unittest/"
	"key-rollover/longrolloverchain.pem",
	&chain));

	ASSERT_EQ(5U, chain.size());
	newintermediate_ = chain[1];
	newroot_ = chain[2];
	newrootrollover_ = chain[3];
	ASSERT_TRUE(newintermediate_);
	ASSERT_TRUE(newroot_);
	ASSERT_TRUE(newrootrollover_);
	}

	protected:
	std::shared_ptr<const ParsedCertificate> oldroot_;
	std::shared_ptr<const ParsedCertificate> newroot_;
	std::shared_ptr<const ParsedCertificate> newrootrollover_;

	std::shared_ptr<const ParsedCertificate> target_;
	std::shared_ptr<const ParsedCertificate> oldintermediate_;
	std::shared_ptr<const ParsedCertificate> newintermediate_;
	};

	// Collection contains no stores, should return no results.
	TEST_F(TrustStoreCollectionTest, NoStores) {
	ParsedCertificateList issuers;

	TrustStoreCollection collection;
	collection.SyncGetIssuersOf(target_.get(), &issuers);

	EXPECT_TRUE(issuers.empty());
	}

	// Collection contains only one store.
	TEST_F(TrustStoreCollectionTest, OneStore) {
	ParsedCertificateList issuers;

	TrustStoreCollection collection;
	TrustStoreInMemory in_memory;
	in_memory.AddTrustAnchor(newroot_);
	collection.AddTrustStore(&in_memory);
	collection.SyncGetIssuersOf(newintermediate_.get(), &issuers);

	ASSERT_EQ(1U, issuers.size());
	EXPECT_EQ(newroot_.get(), issuers[0].get());

	// newroot_ is trusted.
	CertificateTrust trust = collection.GetTrust(newroot_.get());
	EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
	trust.ToDebugString());

	// oldroot_ is not.
	trust = collection.GetTrust(oldroot_.get());
	EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
	trust.ToDebugString());
	}

	// SyncGetIssuersOf() should append to its output parameters rather than assign
	// them.
	TEST_F(TrustStoreCollectionTest, OutputVectorsAppendedTo) {
	ParsedCertificateList issuers;

	// Populate the out-parameter with some values.
	issuers.resize(3);

	TrustStoreCollection collection;
	TrustStoreInMemory in_memory;
	in_memory.AddTrustAnchor(newroot_);
	collection.AddTrustStore(&in_memory);
	collection.SyncGetIssuersOf(newintermediate_.get(), &issuers);

	ASSERT_EQ(4U, issuers.size());
	EXPECT_EQ(newroot_.get(), issuers[3].get());

	// newroot_ is trusted.
	CertificateTrust trust = collection.GetTrust(newroot_.get());
	EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
	trust.ToDebugString());

	// newrootrollover_ is not.
	trust = collection.GetTrust(newrootrollover_.get());
	EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
	trust.ToDebugString());
	}

	// Collection contains two stores.
	TEST_F(TrustStoreCollectionTest, TwoStores) {
	ParsedCertificateList issuers;

	TrustStoreCollection collection;
	TrustStoreInMemory in_memory1;
	TrustStoreInMemory in_memory2;
	in_memory1.AddTrustAnchor(newroot_);
	in_memory2.AddTrustAnchor(oldroot_);
	collection.AddTrustStore(&in_memory1);
	collection.AddTrustStore(&in_memory2);
	collection.SyncGetIssuersOf(newintermediate_.get(), &issuers);

	ASSERT_EQ(2U, issuers.size());
	EXPECT_EQ(newroot_.get(), issuers[0].get());
	EXPECT_EQ(oldroot_.get(), issuers[1].get());

	// newroot_ is trusted.
	CertificateTrust trust = collection.GetTrust(newroot_.get());
	EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
	trust.ToDebugString());

	// oldroot_ is trusted.
	trust = collection.GetTrust(oldroot_.get());
	EXPECT_EQ(CertificateTrust::ForTrustAnchor().ToDebugString(),
	trust.ToDebugString());

	// newrootrollover_ is not.
	trust = collection.GetTrust(newrootrollover_.get());
	EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
	trust.ToDebugString());
	}

	// Collection contains two stores. The certificate is marked as trusted in one,
	// but distrusted in the other.
	TEST_F(TrustStoreCollectionTest, DistrustTakesPriority) {
	ParsedCertificateList issuers;

	TrustStoreCollection collection;
	TrustStoreInMemory in_memory1;
	TrustStoreInMemory in_memory2;

	// newroot_ is trusted in store1, distrusted in store2.
	in_memory1.AddTrustAnchor(newroot_);
	in_memory2.AddDistrustedCertificateForTest(newroot_);

	// oldintermediate is distrusted in store1, trusted in store2.
	in_memory1.AddDistrustedCertificateForTest(oldintermediate_);
	in_memory2.AddTrustAnchor(oldintermediate_);

	collection.AddTrustStore(&in_memory1);
	collection.AddTrustStore(&in_memory2);

	// newroot_ is distrusted..
	CertificateTrust trust = collection.GetTrust(newroot_.get());
	EXPECT_EQ(CertificateTrust::ForDistrusted().ToDebugString(),
	trust.ToDebugString());

	// oldintermediate_ is distrusted.
	trust = collection.GetTrust(oldintermediate_.get());
	EXPECT_EQ(CertificateTrust::ForDistrusted().ToDebugString(),
	trust.ToDebugString());

	// newrootrollover_ is unspecified.
	trust = collection.GetTrust(newrootrollover_.get());
	EXPECT_EQ(CertificateTrust::ForUnspecified().ToDebugString(),
	trust.ToDebugString());
	}

	} // namespace

	} // namespace bssl