quic/test_tools/fake_proof_source_handle.cc - quiche - Git at Google

 // Copyright (c) 2021 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 "quic/test_tools/fake_proof_source_handle.h"
 #include "quic/core/quic_types.h"
 #include "quic/platform/api/quic_bug_tracker.h"

 namespace quic {
 namespace test {
 namespace {

 struct QUIC_EXPORT_PRIVATE ComputeSignatureResult {
   bool ok;
   std::string signature;
   std::unique_ptr<ProofSource::Details> details;
 };

 class QUIC_EXPORT_PRIVATE ResultSavingSignatureCallback
     : public ProofSource::SignatureCallback {
  public:
   explicit ResultSavingSignatureCallback(
       absl::optional<ComputeSignatureResult>* result)
       : result_(result) {
     QUICHE_DCHECK(!result_->has_value());
   }
   void Run(bool ok,
            std::string signature,
            std::unique_ptr<ProofSource::Details> details) override {
     result_->emplace(
         ComputeSignatureResult{ok, std::move(signature), std::move(details)});
   }

  private:
   absl::optional<ComputeSignatureResult>* result_;
 };

 ComputeSignatureResult ComputeSignatureNow(
     ProofSource* delegate,
     const QuicSocketAddress& server_address,
     const QuicSocketAddress& client_address,
     const std::string& hostname,
     uint16_t signature_algorithm,
     absl::string_view in) {
   absl::optional<ComputeSignatureResult> result;
   delegate->ComputeTlsSignature(
       server_address, client_address, hostname, signature_algorithm, in,
       std::make_unique<ResultSavingSignatureCallback>(&result));
   QUICHE_CHECK(result.has_value())
       << "delegate->ComputeTlsSignature must computes a "
          "signature immediately";
   return std::move(result.value());
 }
 }  // namespace

 FakeProofSourceHandle::FakeProofSourceHandle(
     ProofSource* delegate, ProofSourceHandleCallback* callback,
     Action select_cert_action, Action compute_signature_action,
     QuicDelayedSSLConfig dealyed_ssl_config)
     : delegate_(delegate),
       callback_(callback),
       select_cert_action_(select_cert_action),
       compute_signature_action_(compute_signature_action),
       dealyed_ssl_config_(dealyed_ssl_config) {}

 void FakeProofSourceHandle::CloseHandle() {
   select_cert_op_.reset();
   compute_signature_op_.reset();
   closed_ = true;
 }

 QuicAsyncStatus FakeProofSourceHandle::SelectCertificate(
     const QuicSocketAddress& server_address,
     const QuicSocketAddress& client_address,
     absl::string_view ssl_capabilities,
     const std::string& hostname,
     absl::string_view client_hello,
     const std::string& alpn,
     absl::optional<std::string> alps,
     const std::vector<uint8_t>& quic_transport_params,
     const absl::optional<std::vector<uint8_t>>& early_data_context,
     const QuicSSLConfig& ssl_config) {
   if (select_cert_action_ != Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
     QUICHE_CHECK(!closed_);
   }
   all_select_cert_args_.push_back(SelectCertArgs(
       server_address, client_address, ssl_capabilities, hostname, client_hello,
       alpn, alps, quic_transport_params, early_data_context, ssl_config));

   if (select_cert_action_ == Action::DELEGATE_ASYNC ||
       select_cert_action_ == Action::FAIL_ASYNC) {
     select_cert_op_.emplace(delegate_, callback_, select_cert_action_,
                             all_select_cert_args_.back(), dealyed_ssl_config_);
     return QUIC_PENDING;
   } else if (select_cert_action_ == Action::FAIL_SYNC ||
              select_cert_action_ == Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
     callback()->OnSelectCertificateDone(
         /*ok=*/false,
         /*is_sync=*/true, nullptr, /*handshake_hints=*/absl::string_view(),
         /*ticket_encryption_key=*/absl::string_view(),
         /*cert_matched_sni=*/false, dealyed_ssl_config_);
     return QUIC_FAILURE;
   }

   QUICHE_DCHECK(select_cert_action_ == Action::DELEGATE_SYNC);
   bool cert_matched_sni;
   QuicReferenceCountedPointer<ProofSource::Chain> chain =
       delegate_->GetCertChain(server_address, client_address, hostname,
                               &cert_matched_sni);

   bool ok = chain && !chain->certs.empty();
   callback_->OnSelectCertificateDone(
       ok, /*is_sync=*/true, chain.get(),
       /*handshake_hints=*/absl::string_view(),
       /*ticket_encryption_key=*/absl::string_view(),
       /*cert_matched_sni=*/cert_matched_sni, dealyed_ssl_config_);
   return ok ? QUIC_SUCCESS : QUIC_FAILURE;
 }

 QuicAsyncStatus FakeProofSourceHandle::ComputeSignature(
     const QuicSocketAddress& server_address,
     const QuicSocketAddress& client_address,
     const std::string& hostname,
     uint16_t signature_algorithm,
     absl::string_view in,
     size_t max_signature_size) {
   if (compute_signature_action_ != Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
     QUICHE_CHECK(!closed_);
   }
   all_compute_signature_args_.push_back(
       ComputeSignatureArgs(server_address, client_address, hostname,
                            signature_algorithm, in, max_signature_size));

   if (compute_signature_action_ == Action::DELEGATE_ASYNC ||
       compute_signature_action_ == Action::FAIL_ASYNC) {
     compute_signature_op_.emplace(delegate_, callback_,
                                   compute_signature_action_,
                                   all_compute_signature_args_.back());
     return QUIC_PENDING;
   } else if (compute_signature_action_ == Action::FAIL_SYNC ||
              compute_signature_action_ ==
                  Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
     callback()->OnComputeSignatureDone(/*ok=*/false, /*is_sync=*/true,
                                        /*signature=*/"", /*details=*/nullptr);
     return QUIC_FAILURE;
   }

   QUICHE_DCHECK(compute_signature_action_ == Action::DELEGATE_SYNC);
   ComputeSignatureResult result =
       ComputeSignatureNow(delegate_, server_address, client_address, hostname,
                           signature_algorithm, in);
   callback_->OnComputeSignatureDone(
       result.ok, /*is_sync=*/true, result.signature, std::move(result.details));
   return result.ok ? QUIC_SUCCESS : QUIC_FAILURE;
 }

 ProofSourceHandleCallback* FakeProofSourceHandle::callback() {
   return callback_;
 }

 bool FakeProofSourceHandle::HasPendingOperation() const {
   int num_pending_operations = NumPendingOperations();
   return num_pending_operations > 0;
 }

 void FakeProofSourceHandle::CompletePendingOperation() {
   QUICHE_DCHECK_LE(NumPendingOperations(), 1);

   if (select_cert_op_.has_value()) {
     select_cert_op_->Run();
     select_cert_op_.reset();
   } else if (compute_signature_op_.has_value()) {
     compute_signature_op_->Run();
     compute_signature_op_.reset();
   }
 }

 int FakeProofSourceHandle::NumPendingOperations() const {
   return static_cast<int>(select_cert_op_.has_value()) +
          static_cast<int>(compute_signature_op_.has_value());
 }

 FakeProofSourceHandle::SelectCertOperation::SelectCertOperation(
     ProofSource* delegate, ProofSourceHandleCallback* callback, Action action,
     SelectCertArgs args, QuicDelayedSSLConfig dealyed_ssl_config)
     : PendingOperation(delegate, callback, action),
       args_(std::move(args)),
       dealyed_ssl_config_(dealyed_ssl_config) {}

 void FakeProofSourceHandle::SelectCertOperation::Run() {
   if (action_ == Action::FAIL_ASYNC) {
     callback_->OnSelectCertificateDone(
         /*ok=*/false,
         /*is_sync=*/false, nullptr,
         /*handshake_hints=*/absl::string_view(),
         /*ticket_encryption_key=*/absl::string_view(),
         /*cert_matched_sni=*/false, dealyed_ssl_config_);
   } else if (action_ == Action::DELEGATE_ASYNC) {
     bool cert_matched_sni;
     QuicReferenceCountedPointer<ProofSource::Chain> chain =
         delegate_->GetCertChain(args_.server_address, args_.client_address,
                                 args_.hostname, &cert_matched_sni);
     bool ok = chain && !chain->certs.empty();
     callback_->OnSelectCertificateDone(
         ok, /*is_sync=*/false, chain.get(),
         /*handshake_hints=*/absl::string_view(),
         /*ticket_encryption_key=*/absl::string_view(),
         /*cert_matched_sni=*/cert_matched_sni, dealyed_ssl_config_);
   } else {
     QUIC_BUG(quic_bug_10139_1)
         << "Unexpected action: " << static_cast<int>(action_);
   }
 }

 FakeProofSourceHandle::ComputeSignatureOperation::ComputeSignatureOperation(
     ProofSource* delegate,
     ProofSourceHandleCallback* callback,
     Action action,
     ComputeSignatureArgs args)
     : PendingOperation(delegate, callback, action), args_(std::move(args)) {}

 void FakeProofSourceHandle::ComputeSignatureOperation::Run() {
   if (action_ == Action::FAIL_ASYNC) {
     callback_->OnComputeSignatureDone(
         /*ok=*/false, /*is_sync=*/false,
         /*signature=*/"", /*details=*/nullptr);
   } else if (action_ == Action::DELEGATE_ASYNC) {
     ComputeSignatureResult result = ComputeSignatureNow(
         delegate_, args_.server_address, args_.client_address, args_.hostname,
         args_.signature_algorithm, args_.in);
     callback_->OnComputeSignatureDone(result.ok, /*is_sync=*/false,
                                       result.signature,
                                       std::move(result.details));
   } else {
     QUIC_BUG(quic_bug_10139_2)
         << "Unexpected action: " << static_cast<int>(action_);
   }
 }

 }  // namespace test
 }  // namespace quic
	// Copyright (c) 2021 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 "quic/test_tools/fake_proof_source_handle.h"
	#include "quic/core/quic_types.h"
	#include "quic/platform/api/quic_bug_tracker.h"

	namespace quic {
	namespace test {
	namespace {

	struct QUIC_EXPORT_PRIVATE ComputeSignatureResult {
	bool ok;
	std::string signature;
	std::unique_ptr<ProofSource::Details> details;
	};

	class QUIC_EXPORT_PRIVATE ResultSavingSignatureCallback
	: public ProofSource::SignatureCallback {
	public:
	explicit ResultSavingSignatureCallback(
	absl::optional<ComputeSignatureResult>* result)
	: result_(result) {
	QUICHE_DCHECK(!result_->has_value());
	}
	void Run(bool ok,
	std::string signature,
	std::unique_ptr<ProofSource::Details> details) override {
	result_->emplace(
	ComputeSignatureResult{ok, std::move(signature), std::move(details)});
	}

	private:
	absl::optional<ComputeSignatureResult>* result_;
	};

	ComputeSignatureResult ComputeSignatureNow(
	ProofSource* delegate,
	const QuicSocketAddress& server_address,
	const QuicSocketAddress& client_address,
	const std::string& hostname,
	uint16_t signature_algorithm,
	absl::string_view in) {
	absl::optional<ComputeSignatureResult> result;
	delegate->ComputeTlsSignature(
	server_address, client_address, hostname, signature_algorithm, in,
	std::make_unique<ResultSavingSignatureCallback>(&result));
	QUICHE_CHECK(result.has_value())
	<< "delegate->ComputeTlsSignature must computes a "
	"signature immediately";
	return std::move(result.value());
	}
	} // namespace

	FakeProofSourceHandle::FakeProofSourceHandle(
	ProofSource* delegate, ProofSourceHandleCallback* callback,
	Action select_cert_action, Action compute_signature_action,
	QuicDelayedSSLConfig dealyed_ssl_config)
	: delegate_(delegate),
	callback_(callback),
	select_cert_action_(select_cert_action),
	compute_signature_action_(compute_signature_action),
	dealyed_ssl_config_(dealyed_ssl_config) {}

	void FakeProofSourceHandle::CloseHandle() {
	select_cert_op_.reset();
	compute_signature_op_.reset();
	closed_ = true;
	}

	QuicAsyncStatus FakeProofSourceHandle::SelectCertificate(
	const QuicSocketAddress& server_address,
	const QuicSocketAddress& client_address,
	absl::string_view ssl_capabilities,
	const std::string& hostname,
	absl::string_view client_hello,
	const std::string& alpn,
	absl::optional<std::string> alps,
	const std::vector<uint8_t>& quic_transport_params,
	const absl::optional<std::vector<uint8_t>>& early_data_context,
	const QuicSSLConfig& ssl_config) {
	if (select_cert_action_ != Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
	QUICHE_CHECK(!closed_);
	}
	all_select_cert_args_.push_back(SelectCertArgs(
	server_address, client_address, ssl_capabilities, hostname, client_hello,
	alpn, alps, quic_transport_params, early_data_context, ssl_config));

	if (select_cert_action_ == Action::DELEGATE_ASYNC \|\|
	select_cert_action_ == Action::FAIL_ASYNC) {
	select_cert_op_.emplace(delegate_, callback_, select_cert_action_,
	all_select_cert_args_.back(), dealyed_ssl_config_);
	return QUIC_PENDING;
	} else if (select_cert_action_ == Action::FAIL_SYNC \|\|
	select_cert_action_ == Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
	callback()->OnSelectCertificateDone(
	/ok=/false,
	/is_sync=/true, nullptr, /handshake_hints=/absl::string_view(),
	/ticket_encryption_key=/absl::string_view(),
	/cert_matched_sni=/false, dealyed_ssl_config_);
	return QUIC_FAILURE;
	}

	QUICHE_DCHECK(select_cert_action_ == Action::DELEGATE_SYNC);
	bool cert_matched_sni;
	QuicReferenceCountedPointer<ProofSource::Chain> chain =
	delegate_->GetCertChain(server_address, client_address, hostname,
	&cert_matched_sni);

	bool ok = chain && !chain->certs.empty();
	callback_->OnSelectCertificateDone(
	ok, /is_sync=/true, chain.get(),
	/handshake_hints=/absl::string_view(),
	/ticket_encryption_key=/absl::string_view(),
	/cert_matched_sni=/cert_matched_sni, dealyed_ssl_config_);
	return ok ? QUIC_SUCCESS : QUIC_FAILURE;
	}

	QuicAsyncStatus FakeProofSourceHandle::ComputeSignature(
	const QuicSocketAddress& server_address,
	const QuicSocketAddress& client_address,
	const std::string& hostname,
	uint16_t signature_algorithm,
	absl::string_view in,
	size_t max_signature_size) {
	if (compute_signature_action_ != Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
	QUICHE_CHECK(!closed_);
	}
	all_compute_signature_args_.push_back(
	ComputeSignatureArgs(server_address, client_address, hostname,
	signature_algorithm, in, max_signature_size));

	if (compute_signature_action_ == Action::DELEGATE_ASYNC \|\|
	compute_signature_action_ == Action::FAIL_ASYNC) {
	compute_signature_op_.emplace(delegate_, callback_,
	compute_signature_action_,
	all_compute_signature_args_.back());
	return QUIC_PENDING;
	} else if (compute_signature_action_ == Action::FAIL_SYNC \|\|
	compute_signature_action_ ==
	Action::FAIL_SYNC_DO_NOT_CHECK_CLOSED) {
	callback()->OnComputeSignatureDone(/ok=/false, /is_sync=/true,
	/signature=/"", /details=/nullptr);
	return QUIC_FAILURE;
	}

	QUICHE_DCHECK(compute_signature_action_ == Action::DELEGATE_SYNC);
	ComputeSignatureResult result =
	ComputeSignatureNow(delegate_, server_address, client_address, hostname,
	signature_algorithm, in);
	callback_->OnComputeSignatureDone(
	result.ok, /is_sync=/true, result.signature, std::move(result.details));
	return result.ok ? QUIC_SUCCESS : QUIC_FAILURE;
	}

	ProofSourceHandleCallback* FakeProofSourceHandle::callback() {
	return callback_;
	}

	bool FakeProofSourceHandle::HasPendingOperation() const {
	int num_pending_operations = NumPendingOperations();
	return num_pending_operations > 0;
	}

	void FakeProofSourceHandle::CompletePendingOperation() {
	QUICHE_DCHECK_LE(NumPendingOperations(), 1);

	if (select_cert_op_.has_value()) {
	select_cert_op_->Run();
	select_cert_op_.reset();
	} else if (compute_signature_op_.has_value()) {
	compute_signature_op_->Run();
	compute_signature_op_.reset();
	}
	}

	int FakeProofSourceHandle::NumPendingOperations() const {
	return static_cast<int>(select_cert_op_.has_value()) +
	static_cast<int>(compute_signature_op_.has_value());
	}

	FakeProofSourceHandle::SelectCertOperation::SelectCertOperation(
	ProofSource* delegate, ProofSourceHandleCallback* callback, Action action,
	SelectCertArgs args, QuicDelayedSSLConfig dealyed_ssl_config)
	: PendingOperation(delegate, callback, action),
	args_(std::move(args)),
	dealyed_ssl_config_(dealyed_ssl_config) {}

	void FakeProofSourceHandle::SelectCertOperation::Run() {
	if (action_ == Action::FAIL_ASYNC) {
	callback_->OnSelectCertificateDone(
	/ok=/false,
	/is_sync=/false, nullptr,
	/handshake_hints=/absl::string_view(),
	/ticket_encryption_key=/absl::string_view(),
	/cert_matched_sni=/false, dealyed_ssl_config_);
	} else if (action_ == Action::DELEGATE_ASYNC) {
	bool cert_matched_sni;
	QuicReferenceCountedPointer<ProofSource::Chain> chain =
	delegate_->GetCertChain(args_.server_address, args_.client_address,
	args_.hostname, &cert_matched_sni);
	bool ok = chain && !chain->certs.empty();
	callback_->OnSelectCertificateDone(
	ok, /is_sync=/false, chain.get(),
	/handshake_hints=/absl::string_view(),
	/ticket_encryption_key=/absl::string_view(),
	/cert_matched_sni=/cert_matched_sni, dealyed_ssl_config_);
	} else {
	QUIC_BUG(quic_bug_10139_1)
	<< "Unexpected action: " << static_cast<int>(action_);
	}
	}

	FakeProofSourceHandle::ComputeSignatureOperation::ComputeSignatureOperation(
	ProofSource* delegate,
	ProofSourceHandleCallback* callback,
	Action action,
	ComputeSignatureArgs args)
	: PendingOperation(delegate, callback, action), args_(std::move(args)) {}

	void FakeProofSourceHandle::ComputeSignatureOperation::Run() {
	if (action_ == Action::FAIL_ASYNC) {
	callback_->OnComputeSignatureDone(
	/ok=/false, /is_sync=/false,
	/signature=/"", /details=/nullptr);
	} else if (action_ == Action::DELEGATE_ASYNC) {
	ComputeSignatureResult result = ComputeSignatureNow(
	delegate_, args_.server_address, args_.client_address, args_.hostname,
	args_.signature_algorithm, args_.in);
	callback_->OnComputeSignatureDone(result.ok, /is_sync=/false,
	result.signature,
	std::move(result.details));
	} else {
	QUIC_BUG(quic_bug_10139_2)
	<< "Unexpected action: " << static_cast<int>(action_);
	}
	}

	} // namespace test
	} // namespace quic