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// Copyright (c) 2013 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 <memory>
#include "base/files/file_path.h"
#include "net/base/ip_endpoint.h"
#include "net/base/net_errors.h"
#include "net/base/test_completion_callback.h"
#include "net/cert/cert_status_flags.h"
#include "net/cert/cert_verify_result.h"
#include "net/cert/x509_certificate.h"
#include "net/test/cert_test_util.h"
#include "net/test/test_data_directory.h"
#include "net/third_party/quiche/src/quic/core/crypto/proof_source.h"
#include "net/third_party/quiche/src/quic/core/crypto/proof_verifier.h"
#include "net/third_party/quiche/src/quic/test_tools/crypto_test_utils.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/boringssl/src/include/openssl/ssl.h"
using std::string;
namespace net {
namespace test {
namespace {
// TestProofVerifierCallback is a simple callback for a quic::ProofVerifier that
// signals a TestCompletionCallback when called and stores the results from the
// quic::ProofVerifier in pointers passed to the constructor.
class TestProofVerifierCallback : public quic::ProofVerifierCallback {
public:
TestProofVerifierCallback(TestCompletionCallback* comp_callback,
bool* ok,
string* error_details)
: comp_callback_(comp_callback), ok_(ok), error_details_(error_details) {}
void Run(bool ok,
const string& error_details,
std::unique_ptr<quic::ProofVerifyDetails>* details) override {
*ok_ = ok;
*error_details_ = error_details;
comp_callback_->callback().Run(0);
}
private:
TestCompletionCallback* const comp_callback_;
bool* const ok_;
string* const error_details_;
};
// RunVerification runs |verifier->VerifyProof| and asserts that the result
// matches |expected_ok|.
void RunVerification(quic::ProofVerifier* verifier,
const string& hostname,
const uint16_t port,
const string& server_config,
quic::QuicTransportVersion quic_version,
quiche::QuicheStringPiece chlo_hash,
const std::vector<string>& certs,
const string& proof,
bool expected_ok) {
std::unique_ptr<quic::ProofVerifyDetails> details;
TestCompletionCallback comp_callback;
bool ok;
string error_details;
std::unique_ptr<quic::ProofVerifyContext> verify_context(
quic::test::crypto_test_utils::ProofVerifyContextForTesting());
std::unique_ptr<TestProofVerifierCallback> callback(
new TestProofVerifierCallback(&comp_callback, &ok, &error_details));
quic::QuicAsyncStatus status = verifier->VerifyProof(
hostname, port, server_config, quic_version, chlo_hash, certs, "", proof,
verify_context.get(), &error_details, &details, std::move(callback));
switch (status) {
case quic::QUIC_FAILURE:
ASSERT_FALSE(expected_ok);
ASSERT_NE("", error_details);
return;
case quic::QUIC_SUCCESS:
ASSERT_TRUE(expected_ok);
ASSERT_EQ("", error_details);
return;
case quic::QUIC_PENDING:
comp_callback.WaitForResult();
ASSERT_EQ(expected_ok, ok);
break;
}
}
class TestCallback : public quic::ProofSource::Callback {
public:
explicit TestCallback(
bool* called,
bool* ok,
quic::QuicReferenceCountedPointer<quic::ProofSource::Chain>* chain,
quic::QuicCryptoProof* proof)
: called_(called), ok_(ok), chain_(chain), proof_(proof) {}
void Run(
bool ok,
const quic::QuicReferenceCountedPointer<quic::ProofSource::Chain>& chain,
const quic::QuicCryptoProof& proof,
std::unique_ptr<quic::ProofSource::Details> /* details */) override {
*ok_ = ok;
*chain_ = chain;
*proof_ = proof;
*called_ = true;
}
private:
bool* called_;
bool* ok_;
quic::QuicReferenceCountedPointer<quic::ProofSource::Chain>* chain_;
quic::QuicCryptoProof* proof_;
};
class ProofTest : public ::testing::TestWithParam<quic::ParsedQuicVersion> {};
} // namespace
INSTANTIATE_TEST_SUITE_P(QuicTransportVersion,
ProofTest,
::testing::ValuesIn(quic::AllSupportedVersions()),
::testing::PrintToStringParamName());
TEST_P(ProofTest, Verify) {
std::unique_ptr<quic::ProofSource> source(
quic::test::crypto_test_utils::ProofSourceForTesting());
std::unique_ptr<quic::ProofVerifier> verifier(
quic::test::crypto_test_utils::ProofVerifierForTesting());
const string server_config = "server config bytes";
const string hostname = "test.example.com";
const uint16_t port = 8443;
const string first_chlo_hash = "first chlo hash bytes";
const string second_chlo_hash = "first chlo hash bytes";
const quic::QuicTransportVersion quic_version = GetParam().transport_version;
bool called = false;
bool first_called = false;
bool ok, first_ok;
quic::QuicReferenceCountedPointer<quic::ProofSource::Chain> chain;
quic::QuicReferenceCountedPointer<quic::ProofSource::Chain> first_chain;
string error_details;
quic::QuicCryptoProof proof, first_proof;
quic::QuicSocketAddress server_addr;
quic::QuicSocketAddress client_addr;
std::unique_ptr<quic::ProofSource::Callback> cb(
new TestCallback(&called, &ok, &chain, &proof));
std::unique_ptr<quic::ProofSource::Callback> first_cb(
new TestCallback(&first_called, &first_ok, &first_chain, &first_proof));
// GetProof here expects the async method to invoke the callback
// synchronously.
source->GetProof(server_addr, client_addr, hostname, server_config,
quic_version, first_chlo_hash, std::move(first_cb));
source->GetProof(server_addr, client_addr, hostname, server_config,
quic_version, second_chlo_hash, std::move(cb));
ASSERT_TRUE(called);
ASSERT_TRUE(first_called);
ASSERT_TRUE(ok);
ASSERT_TRUE(first_ok);
// Check that the proof source is caching correctly:
ASSERT_EQ(first_chain->certs, chain->certs);
ASSERT_NE(proof.signature, first_proof.signature);
ASSERT_EQ(first_proof.leaf_cert_scts, proof.leaf_cert_scts);
RunVerification(verifier.get(), hostname, port, server_config, quic_version,
first_chlo_hash, chain->certs, proof.signature, true);
RunVerification(verifier.get(), "foo.com", port, server_config, quic_version,
first_chlo_hash, chain->certs, proof.signature, false);
RunVerification(verifier.get(), server_config.substr(1, string::npos), port,
server_config, quic_version, first_chlo_hash, chain->certs,
proof.signature, false);
const string corrupt_signature = "1" + proof.signature;
RunVerification(verifier.get(), hostname, port, server_config, quic_version,
first_chlo_hash, chain->certs, corrupt_signature, false);
std::vector<string> wrong_certs;
for (size_t i = 1; i < chain->certs.size(); i++) {
wrong_certs.push_back(chain->certs[i]);
}
RunVerification(verifier.get(), "foo.com", port, server_config, quic_version,
first_chlo_hash, wrong_certs, corrupt_signature, false);
}
namespace {
class TestingSignatureCallback : public quic::ProofSource::SignatureCallback {
public:
TestingSignatureCallback(bool* ok_out, std::string* signature_out)
: ok_out_(ok_out), signature_out_(signature_out) {}
void Run(bool ok,
std::string signature,
std::unique_ptr<quic::ProofSource::Details> /*details*/) override {
*ok_out_ = ok;
*signature_out_ = std::move(signature);
}
private:
bool* ok_out_;
std::string* signature_out_;
};
} // namespace
TEST_P(ProofTest, TlsSignature) {
std::unique_ptr<quic::ProofSource> source(
quic::test::crypto_test_utils::ProofSourceForTesting());
quic::QuicSocketAddress server_address;
const string hostname = "test.example.com";
quic::QuicSocketAddress client_address;
quic::QuicReferenceCountedPointer<quic::ProofSource::Chain> chain =
source->GetCertChain(server_address, client_address, hostname);
ASSERT_GT(chain->certs.size(), 0ul);
// Generate a value to be signed similar to the example in TLS 1.3 section
// 4.4.3. The value to be signed starts with octed 0x20 repeated 64 times,
// followed by the context string, followed by a single 0 byte, followed by
// the transcript hash. Since there's no TLS stack here, we're using 32 bytes
// of 01 as the transcript hash.
string to_be_signed(64, ' ');
to_be_signed.append("TLS 1.3, server CertificateVerify");
to_be_signed.append(1, '\0');
to_be_signed.append(32, 1);
string sig;
bool success;
std::unique_ptr<TestingSignatureCallback> callback =
std::make_unique<TestingSignatureCallback>(&success, &sig);
source->ComputeTlsSignature(server_address, client_address, hostname,
SSL_SIGN_RSA_PSS_SHA256, to_be_signed,
std::move(callback));
EXPECT_TRUE(success);
// Verify that the signature from ComputeTlsSignature can be verified with the
// leaf cert from GetCertChain.
const uint8_t* data;
const uint8_t* orig_data;
orig_data = data = reinterpret_cast<const uint8_t*>(chain->certs[0].data());
bssl::UniquePtr<X509> leaf(d2i_X509(nullptr, &data, chain->certs[0].size()));
ASSERT_NE(leaf.get(), nullptr);
EXPECT_EQ(data - orig_data, static_cast<ptrdiff_t>(chain->certs[0].size()));
bssl::UniquePtr<EVP_PKEY> pkey(X509_get_pubkey(leaf.get()));
bssl::ScopedEVP_MD_CTX md_ctx;
EVP_PKEY_CTX* ctx;
ASSERT_EQ(EVP_DigestVerifyInit(md_ctx.get(), &ctx, EVP_sha256(), nullptr,
pkey.get()),
1);
ASSERT_EQ(EVP_PKEY_CTX_set_rsa_padding(ctx, RSA_PKCS1_PSS_PADDING), 1);
ASSERT_EQ(EVP_PKEY_CTX_set_rsa_pss_saltlen(ctx, -1), 1);
ASSERT_EQ(EVP_DigestVerifyUpdate(md_ctx.get(), to_be_signed.data(),
to_be_signed.size()),
1);
EXPECT_EQ(EVP_DigestVerifyFinal(md_ctx.get(),
reinterpret_cast<const uint8_t*>(sig.data()),
sig.size()),
1);
}
TEST_P(ProofTest, UseAfterFree) {
std::unique_ptr<quic::ProofSource> source(
quic::test::crypto_test_utils::ProofSourceForTesting());
const string server_config = "server config bytes";
const string hostname = "test.example.com";
const string chlo_hash = "proof nonce bytes";
bool called = false;
bool ok;
quic::QuicReferenceCountedPointer<quic::ProofSource::Chain> chain;
string error_details;
quic::QuicCryptoProof proof;
quic::QuicSocketAddress server_addr;
quic::QuicSocketAddress client_addr;
std::unique_ptr<quic::ProofSource::Callback> cb(
new TestCallback(&called, &ok, &chain, &proof));
// GetProof here expects the async method to invoke the callback
// synchronously.
source->GetProof(server_addr, client_addr, hostname, server_config,
GetParam().transport_version, chlo_hash, std::move(cb));
ASSERT_TRUE(called);
ASSERT_TRUE(ok);
// Make sure we can safely access results after deleting where they came from.
EXPECT_FALSE(chain->HasOneRef());
source = nullptr;
EXPECT_TRUE(chain->HasOneRef());
EXPECT_FALSE(chain->certs.empty());
for (const string& cert : chain->certs) {
EXPECT_FALSE(cert.empty());
}
}
} // namespace test
} // namespace net
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