File: proof_verifier_chromium_test.cc

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// Copyright 2015 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "net/quic/crypto/proof_verifier_chromium.h"

#include <algorithm>
#include <memory>
#include <ranges>
#include <string_view>
#include <utility>

#include "base/memory/raw_ptr.h"
#include "base/memory/ref_counted.h"
#include "base/test/metrics/histogram_tester.h"
#include "base/test/scoped_feature_list.h"
#include "base/test/task_environment.h"
#include "net/base/completion_once_callback.h"
#include "net/base/features.h"
#include "net/base/net_errors.h"
#include "net/base/network_anonymization_key.h"
#include "net/cert/cert_status_flags.h"
#include "net/cert/cert_verifier.h"
#include "net/cert/ct_log_verifier.h"
#include "net/cert/ct_policy_enforcer.h"
#include "net/cert/ct_policy_status.h"
#include "net/cert/ct_serialization.h"
#include "net/cert/mock_cert_verifier.h"
#include "net/cert/sct_auditing_delegate.h"
#include "net/cert/x509_util.h"
#include "net/http/transport_security_state.h"
#include "net/http/transport_security_state_test_util.h"
#include "net/quic/crypto/proof_source_chromium.h"
#include "net/quic/quic_context.h"
#include "net/test/cert_test_util.h"
#include "net/test/test_data_directory.h"
#include "net/third_party/quiche/src/quiche/quic/core/crypto/proof_verifier.h"
#include "net/third_party/quiche/src/quiche/quic/core/quic_error_codes.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"

using ::testing::_;
using ::testing::Return;

namespace net::test {

namespace {

const char kCTAndPKPHost[] = "hsts-hpkp-preloaded.test";

// CertVerifier that will fail the test if it is ever called.
class FailsTestCertVerifier : public CertVerifier {
 public:
  FailsTestCertVerifier() = default;
  ~FailsTestCertVerifier() override = default;

  // CertVerifier implementation
  int Verify(const RequestParams& params,
             CertVerifyResult* verify_result,
             CompletionOnceCallback callback,
             std::unique_ptr<Request>* out_req,
             const NetLogWithSource& net_log) override {
    ADD_FAILURE() << "CertVerifier::Verify() should not be called";
    return ERR_FAILED;
  }
  void Verify2QwacBinding(
      const std::string& binding,
      const std::string& hostname,
      const scoped_refptr<net::X509Certificate>& tls_cert,
      base::OnceCallback<void(const scoped_refptr<net::X509Certificate>&)>
          callback,
      const net::NetLogWithSource& net_log) override {
    ADD_FAILURE() << "CertVerifier::Verify2QwacBinding() should not be called";
    std::move(callback).Run(nullptr);
  }
  void SetConfig(const Config& config) override {}
  void AddObserver(Observer* observer) override {}
  void RemoveObserver(Observer* observer) override {}
};

class MockSCTAuditingDelegate : public SCTAuditingDelegate {
 public:
  MOCK_METHOD(bool, IsSCTAuditingEnabled, ());
  MOCK_METHOD(void,
              MaybeEnqueueReport,
              (const net::HostPortPair&,
               const net::X509Certificate*,
               const net::SignedCertificateTimestampAndStatusList&));
};

// Proof source callback which saves the signature into |signature|.
class SignatureSaver : public quic::ProofSource::Callback {
 public:
  explicit SignatureSaver(std::string* signature) : signature_(signature) {}
  ~SignatureSaver() override = default;

  void Run(bool /*ok*/,
           const quiche::QuicheReferenceCountedPointer<
               quic::ProofSource::Chain>& /*chain*/,
           const quic::QuicCryptoProof& proof,
           std::unique_ptr<quic::ProofSource::Details> /*details*/) override {
    *signature_ = proof.signature;
  }

  raw_ptr<std::string> signature_;
};

class DummyProofVerifierCallback : public quic::ProofVerifierCallback {
 public:
  DummyProofVerifierCallback() = default;
  ~DummyProofVerifierCallback() override = default;

  void Run(bool ok,
           const std::string& error_details,
           std::unique_ptr<quic::ProofVerifyDetails>* details) override {
    // Do nothing
  }
};

const char kTestHostname[] = "test.example.com";
const uint16_t kTestPort = 8443;
const char kTestConfig[] = "server config bytes";
const char kTestChloHash[] = "CHLO hash";
const char kTestEmptyOCSPResponse[] = "";
const char kTestEmptySCT[] = "";
const char kTestEmptySignature[] = "";

// This test exercises code that does not depend on the QUIC version in use
// but that still requires a version so we just use the first one.
const quic::QuicTransportVersion kTestTransportVersion =
    AllSupportedQuicVersions().front().transport_version;

}  // namespace

class ProofVerifierChromiumTest : public ::testing::Test {
 public:
  ProofVerifierChromiumTest()
      : verify_context_(std::make_unique<ProofVerifyContextChromium>(
            0 /*cert_verify_flags*/,
            NetLogWithSource())) {}

  void SetUp() override {
    static const char kTestCert[] = "quic-chain.pem";
    test_cert_ = ImportCertFromFile(GetTestCertsDirectory(), kTestCert);
    ASSERT_TRUE(test_cert_);
    certs_.clear();
    certs_.emplace_back(
        x509_util::CryptoBufferAsStringPiece(test_cert_->cert_buffer()));

    dummy_result_.verified_cert = test_cert_;
    dummy_result_.is_issued_by_known_root = true;
    dummy_result_.policy_compliance =
        ct::CTPolicyCompliance::CT_POLICY_NOT_ENOUGH_SCTS;
  }

  std::string GetTestSignature() {
    ProofSourceChromium source;
    source.Initialize(GetTestCertsDirectory().AppendASCII("quic-chain.pem"),
                      GetTestCertsDirectory().AppendASCII("quic-leaf-cert.key"),
                      base::FilePath());
    std::string signature;
    source.GetProof(quic::QuicSocketAddress(), quic::QuicSocketAddress(),
                    kTestHostname, kTestConfig, kTestTransportVersion,
                    kTestChloHash,
                    std::make_unique<SignatureSaver>(&signature));
    return signature;
  }

 protected:
  base::test::SingleThreadTaskEnvironment task_environment_;

  TransportSecurityState transport_security_state_;

  std::unique_ptr<quic::ProofVerifyContext> verify_context_;
  std::unique_ptr<quic::ProofVerifyDetails> details_;
  std::string error_details_;
  uint8_t tls_alert_;
  std::vector<std::string> certs_;
  CertVerifyResult dummy_result_;
  scoped_refptr<X509Certificate> test_cert_;
};

TEST_F(ProofVerifierChromiumTest, VerifyProof) {
  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_, OK);

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_EQ(dummy_result_.cert_status,
            verify_details->cert_verify_result.cert_status);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_EQ(dummy_result_.cert_status,
            verify_details->cert_verify_result.cert_status);
}

// Tests that the quic::ProofVerifier fails verification if certificate
// verification fails.
TEST_F(ProofVerifierChromiumTest, FailsIfCertFails) {
  MockCertVerifier dummy_verifier;
  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);
}

// Confirms that the parameters get passed through to the
// CertVerifier::RequestParams as expected.
TEST_F(ProofVerifierChromiumTest, PassesCertVerifierRequestParams) {
  CertVerifyResult dummy_result;
  dummy_result.verified_cert = test_cert_;
  dummy_result.is_issued_by_known_root = true;

  ParamRecordingMockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result, OK);

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  const std::string kTestOcspResponse = "ocsp";
  const std::string kTestSctList = "sct list";

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestOcspResponse, kTestSctList,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);
  ASSERT_EQ(dummy_verifier.GetVerifyParams().size(), 1u);
  const auto& params = dummy_verifier.GetVerifyParams().front();
  EXPECT_TRUE(params.certificate()->EqualsIncludingChain(test_cert_.get()));
  EXPECT_EQ(params.hostname(), kTestHostname);
  EXPECT_EQ(params.ocsp_response(), kTestOcspResponse);
  EXPECT_EQ(params.sct_list(), kTestSctList);
}

// Tests that the quic::ProofVerifier doesn't verify certificates if the config
// signature fails.
TEST_F(ProofVerifierChromiumTest, FailsIfSignatureFails) {
  FailsTestCertVerifier cert_verifier;
  ProofVerifierChromium proof_verifier(&cert_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, kTestEmptySignature,
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);
}

HashValueVector MakeHashValueVector(uint8_t tag) {
  HashValue hash(HASH_VALUE_SHA256);
  std::ranges::fill(hash.span(), tag);
  HashValueVector hashes;
  hashes.push_back(hash);
  return hashes;
}

TEST_F(ProofVerifierChromiumTest, IsFatalErrorNotSetForNonFatalError) {
  dummy_result_.cert_status = CERT_STATUS_DATE_INVALID;

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_,
                                  ERR_CERT_DATE_INVALID);

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);

  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_FALSE(verify_details->is_fatal_cert_error);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);

  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_FALSE(verify_details->is_fatal_cert_error);
}

TEST_F(ProofVerifierChromiumTest, IsFatalErrorSetForFatalError) {
  dummy_result_.cert_status = CERT_STATUS_DATE_INVALID;

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_,
                                  ERR_CERT_DATE_INVALID);

  const base::Time expiry = base::Time::Now() + base::Seconds(1000);
  transport_security_state_.AddHSTS(kTestHostname, expiry, true);

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);
  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->is_fatal_cert_error);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);
  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->is_fatal_cert_error);
}

// Test that PKP is enforced for certificates that chain up to known roots.
TEST_F(ProofVerifierChromiumTest, PKPEnforced) {
  base::test::ScopedFeatureList scoped_feature_list_;
  scoped_feature_list_.InitAndEnableFeature(
      net::features::kStaticKeyPinningEnforcement);
  dummy_result_.is_issued_by_known_root = true;
  dummy_result_.public_key_hashes = MakeHashValueVector(0x01);

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_, OK);

  transport_security_state_.EnableStaticPinsForTesting();
  transport_security_state_.SetPinningListAlwaysTimelyForTesting(true);
  ScopedTransportSecurityStateSource scoped_security_state_source;

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kCTAndPKPHost, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);

  ASSERT_TRUE(details_.get());
  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->cert_verify_result.cert_status &
              CERT_STATUS_PINNED_KEY_MISSING);
  EXPECT_FALSE(verify_details->pkp_bypassed);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kCTAndPKPHost, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);

  ASSERT_TRUE(details_.get());
  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->cert_verify_result.cert_status &
              CERT_STATUS_PINNED_KEY_MISSING);
  EXPECT_FALSE(verify_details->pkp_bypassed);
}

// Test |pkp_bypassed| is set when PKP is bypassed due to a local
// trust anchor
TEST_F(ProofVerifierChromiumTest, PKPBypassFlagSet) {
  base::test::ScopedFeatureList scoped_feature_list_;
  scoped_feature_list_.InitAndEnableFeature(
      net::features::kStaticKeyPinningEnforcement);
  dummy_result_.is_issued_by_known_root = false;
  dummy_result_.public_key_hashes = MakeHashValueVector(0x01);

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_, OK);

  transport_security_state_.EnableStaticPinsForTesting();
  transport_security_state_.SetPinningListAlwaysTimelyForTesting(true);
  ScopedTransportSecurityStateSource scoped_security_state_source;

  ProofVerifierChromium proof_verifier(
      &dummy_verifier, &transport_security_state_, nullptr, {kCTAndPKPHost},
      NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kCTAndPKPHost, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->pkp_bypassed);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kCTAndPKPHost, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->pkp_bypassed);
}

// Test that PKP is considered even when CT fails.
TEST_F(ProofVerifierChromiumTest, PKPAndCTBothTested) {
  base::test::ScopedFeatureList scoped_feature_list_;
  scoped_feature_list_.InitAndEnableFeature(
      net::features::kStaticKeyPinningEnforcement);
  dummy_result_.is_issued_by_known_root = true;
  dummy_result_.public_key_hashes = MakeHashValueVector(0x01);
  dummy_result_.policy_compliance =
      ct::CTPolicyCompliance::CT_POLICY_NOT_ENOUGH_SCTS;
  dummy_result_.cert_status = CERT_STATUS_CERTIFICATE_TRANSPARENCY_REQUIRED;

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_,
                                  ERR_CERTIFICATE_TRANSPARENCY_REQUIRED);

  // Set up PKP.
  transport_security_state_.EnableStaticPinsForTesting();
  transport_security_state_.SetPinningListAlwaysTimelyForTesting(true);
  ScopedTransportSecurityStateSource scoped_security_state_source;

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kCTAndPKPHost, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);

  ASSERT_TRUE(details_.get());
  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->cert_verify_result.cert_status &
              CERT_STATUS_PINNED_KEY_MISSING);
  EXPECT_TRUE(verify_details->cert_verify_result.cert_status &
              CERT_STATUS_CERTIFICATE_TRANSPARENCY_REQUIRED);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kCTAndPKPHost, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);

  ASSERT_TRUE(details_.get());
  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_TRUE(verify_details->cert_verify_result.cert_status &
              CERT_STATUS_PINNED_KEY_MISSING);
  EXPECT_TRUE(verify_details->cert_verify_result.cert_status &
              CERT_STATUS_CERTIFICATE_TRANSPARENCY_REQUIRED);
}

TEST_F(ProofVerifierChromiumTest, UnknownRootRejected) {
  dummy_result_.is_issued_by_known_root = false;

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_, OK);

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);
  EXPECT_EQ(
      "Failed to verify certificate chain: net::ERR_QUIC_CERT_ROOT_NOT_KNOWN",
      error_details_);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_FAILURE, status);
  EXPECT_EQ(
      "Failed to verify certificate chain: net::ERR_QUIC_CERT_ROOT_NOT_KNOWN",
      error_details_);
}

TEST_F(ProofVerifierChromiumTest, UnknownRootAcceptedWithOverride) {
  dummy_result_.is_issued_by_known_root = false;

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_, OK);

  ProofVerifierChromium proof_verifier(
      &dummy_verifier, &transport_security_state_, nullptr, {kTestHostname},
      NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_EQ(dummy_result_.cert_status,
            verify_details->cert_verify_result.cert_status);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_EQ(dummy_result_.cert_status,
            verify_details->cert_verify_result.cert_status);
}

TEST_F(ProofVerifierChromiumTest, UnknownRootAcceptedWithWildcardOverride) {
  dummy_result_.is_issued_by_known_root = false;

  MockCertVerifier dummy_verifier;
  dummy_verifier.AddResultForCert(test_cert_.get(), dummy_result_, OK);

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr,
                                       {""}, NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  ProofVerifyDetailsChromium* verify_details =
      static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_EQ(dummy_result_.cert_status,
            verify_details->cert_verify_result.cert_status);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  ASSERT_TRUE(details_.get());
  verify_details = static_cast<ProofVerifyDetailsChromium*>(details_.get());
  EXPECT_EQ(dummy_result_.cert_status,
            verify_details->cert_verify_result.cert_status);
}

// Tests that the SCTAuditingDelegate is called to enqueue SCT reports when
// verifying a good proof and cert.
TEST_F(ProofVerifierChromiumTest, SCTAuditingReportCollected) {
  dummy_result_.policy_compliance =
      ct::CTPolicyCompliance::CT_POLICY_COMPLIES_VIA_SCTS;
  MockCertVerifier cert_verifier;
  cert_verifier.AddResultForCert(test_cert_.get(), dummy_result_, OK);

  MockSCTAuditingDelegate sct_auditing_delegate;
  EXPECT_CALL(sct_auditing_delegate, IsSCTAuditingEnabled())
      .WillRepeatedly(Return(true));
  // MaybeEnqueueReport() will be called twice: once in VerifyProof() (which
  // calls VerifyCert()) and once in VerifyCertChain().
  HostPortPair host_port_pair(kTestHostname, kTestPort);
  EXPECT_CALL(sct_auditing_delegate, MaybeEnqueueReport(host_port_pair, _, _))
      .Times(2);

  ProofVerifierChromium proof_verifier(
      &cert_verifier, &transport_security_state_, &sct_auditing_delegate, {},
      NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);

  callback = std::make_unique<DummyProofVerifierCallback>();
  status = proof_verifier.VerifyCertChain(
      kTestHostname, kTestPort, certs_, kTestEmptyOCSPResponse, kTestEmptySCT,
      verify_context_.get(), &error_details_, &details_, &tls_alert_,
      std::move(callback));
  ASSERT_EQ(quic::QUIC_SUCCESS, status);
}

// Make sure that destroying ProofVerifierChromium while there's a pending
// request doesn't result in any raw pointer warnings or other crashes.
TEST_F(ProofVerifierChromiumTest, DestroyWithPendingRequest) {
  MockCertVerifier dummy_verifier;
  // In async mode, the MockCertVerifier's Request will hang onto a raw_ptr to
  // the CertVerifyResult, just like a real Request.
  dummy_verifier.set_async(true);

  ProofVerifierChromium proof_verifier(&dummy_verifier,
                                       &transport_security_state_, nullptr, {},
                                       NetworkAnonymizationKey());

  auto callback = std::make_unique<DummyProofVerifierCallback>();
  quic::QuicAsyncStatus status = proof_verifier.VerifyProof(
      kTestHostname, kTestPort, kTestConfig, kTestTransportVersion,
      kTestChloHash, certs_, kTestEmptySCT, GetTestSignature(),
      verify_context_.get(), &error_details_, &details_, std::move(callback));
  ASSERT_EQ(quic::QUIC_PENDING, status);
}

}  // namespace net::test