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// Copyright 2020 The Pigweed Authors
//
// Licensed under the Apache License, Version 2.0 (the "License"); you may not
// use this file except in compliance with the License. You may obtain a copy of
// the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
// License for the specific language governing permissions and limitations under
// the License.
#include "pw_rpc/nanopb/internal/method.h"
#include <array>
#include "gtest/gtest.h"
#include "pw_containers/algorithm.h"
#include "pw_rpc/internal/lock.h"
#include "pw_rpc/internal/method_impl_tester.h"
#include "pw_rpc/internal/test_utils.h"
#include "pw_rpc/nanopb/internal/method_union.h"
#include "pw_rpc/service.h"
#include "pw_rpc_nanopb_private/internal_test_utils.h"
#include "pw_rpc_test_protos/test.pb.h"
PW_MODIFY_DIAGNOSTICS_PUSH();
PW_MODIFY_DIAGNOSTIC(ignored, "-Wmissing-field-initializers");
namespace pw::rpc::internal {
namespace {
using std::byte;
struct FakePb {};
// Create a fake service for use with the MethodImplTester.
class TestNanopbService final : public Service {
public:
// Unary signatures
Status Unary(const FakePb&, FakePb&) { return Status(); }
static Status StaticUnary(const FakePb&, FakePb&) { return Status(); }
void AsyncUnary(const FakePb&, NanopbUnaryResponder<FakePb>&) {}
static void StaticAsyncUnary(const FakePb&, NanopbUnaryResponder<FakePb>&) {}
Status UnaryWrongArg(FakePb&, FakePb&) { return Status(); }
static void StaticUnaryVoidReturn(const FakePb&, FakePb&) {}
// Server streaming signatures
void ServerStreaming(const FakePb&, NanopbServerWriter<FakePb>&) {}
static void StaticServerStreaming(const FakePb&,
NanopbServerWriter<FakePb>&) {}
int ServerStreamingBadReturn(const FakePb&, NanopbServerWriter<FakePb>&) {
return 5;
}
static void StaticServerStreamingMissingArg(NanopbServerWriter<FakePb>&) {}
// Client streaming signatures
void ClientStreaming(NanopbServerReader<FakePb, FakePb>&) {}
static void StaticClientStreaming(NanopbServerReader<FakePb, FakePb>&) {}
int ClientStreamingBadReturn(NanopbServerReader<FakePb, FakePb>&) {
return 0;
}
static void StaticClientStreamingMissingArg() {}
// Bidirectional streaming signatures
void BidirectionalStreaming(NanopbServerReaderWriter<FakePb, FakePb>&) {}
static void StaticBidirectionalStreaming(
NanopbServerReaderWriter<FakePb, FakePb>&) {}
int BidirectionalStreamingBadReturn(
NanopbServerReaderWriter<FakePb, FakePb>&) {
return 0;
}
static void StaticBidirectionalStreamingMissingArg() {}
};
struct WrongPb;
// Test matches() rejects incorrect request/response types.
// clang-format off
static_assert(!NanopbMethod::template matches<&TestNanopbService::Unary, WrongPb, FakePb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::Unary, FakePb, WrongPb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::Unary, WrongPb, WrongPb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::StaticUnary, FakePb, WrongPb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::ServerStreaming, WrongPb, FakePb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::StaticServerStreaming, FakePb, WrongPb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::ClientStreaming, WrongPb, FakePb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::StaticClientStreaming, FakePb, WrongPb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::BidirectionalStreaming, WrongPb, FakePb>());
static_assert(!NanopbMethod::template matches<&TestNanopbService::StaticBidirectionalStreaming, FakePb, WrongPb>());
// clang-format on
static_assert(MethodImplTests<NanopbMethod, TestNanopbService>().Pass(
MatchesTypes<FakePb, FakePb>(),
std::tuple<const NanopbMethodSerde&>(
kNanopbMethodSerde<nullptr, nullptr>)));
template <typename Impl>
class FakeServiceBase : public Service {
public:
FakeServiceBase(uint32_t id) : Service(id, kMethods) {}
static constexpr std::array<NanopbMethodUnion, 5> kMethods = {
NanopbMethod::SynchronousUnary<&Impl::DoNothing>(
10u,
kNanopbMethodSerde<pw_rpc_test_Empty_fields,
pw_rpc_test_Empty_fields>),
NanopbMethod::AsynchronousUnary<&Impl::AddFive>(
11u,
kNanopbMethodSerde<pw_rpc_test_TestRequest_fields,
pw_rpc_test_TestResponse_fields>),
NanopbMethod::ServerStreaming<&Impl::StartStream>(
12u,
kNanopbMethodSerde<pw_rpc_test_TestRequest_fields,
pw_rpc_test_TestResponse_fields>),
NanopbMethod::ClientStreaming<&Impl::ClientStream>(
13u,
kNanopbMethodSerde<pw_rpc_test_TestRequest_fields,
pw_rpc_test_TestResponse_fields>),
NanopbMethod::BidirectionalStreaming<&Impl::BidirectionalStream>(
14u,
kNanopbMethodSerde<pw_rpc_test_TestRequest_fields,
pw_rpc_test_TestResponse_fields>)};
};
class FakeService : public FakeServiceBase<FakeService> {
public:
FakeService(uint32_t id) : FakeServiceBase(id) {}
Status DoNothing(const pw_rpc_test_Empty&, pw_rpc_test_Empty&) {
return Status::Unknown();
}
void AddFive(const pw_rpc_test_TestRequest& request,
NanopbUnaryResponder<pw_rpc_test_TestResponse>& responder) {
last_request = request;
if (fail_to_encode_async_unary_response) {
pw_rpc_test_TestResponse response = pw_rpc_test_TestResponse_init_default;
response.repeated_field.funcs.encode =
[](pb_ostream_t*, const pb_field_t*, void* const*) { return false; };
ASSERT_EQ(OkStatus(), responder.Finish(response, Status::NotFound()));
} else {
ASSERT_EQ(
OkStatus(),
responder.Finish({.value = static_cast<int32_t>(request.integer + 5)},
Status::Unauthenticated()));
}
}
void StartStream(const pw_rpc_test_TestRequest& request,
NanopbServerWriter<pw_rpc_test_TestResponse>& writer) {
last_request = request;
last_writer = std::move(writer);
}
void ClientStream(NanopbServerReader<pw_rpc_test_TestRequest,
pw_rpc_test_TestResponse>& reader) {
last_reader = std::move(reader);
}
void BidirectionalStream(
NanopbServerReaderWriter<pw_rpc_test_TestRequest,
pw_rpc_test_TestResponse>& reader_writer) {
last_reader_writer = std::move(reader_writer);
}
bool fail_to_encode_async_unary_response = false;
pw_rpc_test_TestRequest last_request;
NanopbServerWriter<pw_rpc_test_TestResponse> last_writer;
NanopbServerReader<pw_rpc_test_TestRequest, pw_rpc_test_TestResponse>
last_reader;
NanopbServerReaderWriter<pw_rpc_test_TestRequest, pw_rpc_test_TestResponse>
last_reader_writer;
};
constexpr const NanopbMethod& kSyncUnary =
std::get<0>(FakeServiceBase<FakeService>::kMethods).nanopb_method();
constexpr const NanopbMethod& kAsyncUnary =
std::get<1>(FakeServiceBase<FakeService>::kMethods).nanopb_method();
constexpr const NanopbMethod& kServerStream =
std::get<2>(FakeServiceBase<FakeService>::kMethods).nanopb_method();
constexpr const NanopbMethod& kClientStream =
std::get<3>(FakeServiceBase<FakeService>::kMethods).nanopb_method();
constexpr const NanopbMethod& kBidirectionalStream =
std::get<4>(FakeServiceBase<FakeService>::kMethods).nanopb_method();
TEST(NanopbMethod, AsyncUnaryRpc_SendsResponse) {
PW_ENCODE_PB(
pw_rpc_test_TestRequest, request, .integer = 123, .status_code = 0);
ServerContextForTest<FakeService> context(kAsyncUnary);
rpc_lock().lock();
kAsyncUnary.Invoke(context.get(), context.request(request));
const Packet& response = context.output().last_packet();
EXPECT_EQ(response.status(), Status::Unauthenticated());
// Field 1 (encoded as 1 << 3) with 128 as the value.
constexpr std::byte expected[]{
std::byte{0x08}, std::byte{0x80}, std::byte{0x01}};
EXPECT_EQ(sizeof(expected), response.payload().size());
EXPECT_EQ(0,
std::memcmp(expected, response.payload().data(), sizeof(expected)));
EXPECT_EQ(123, context.service().last_request.integer);
}
TEST(NanopbMethod, SyncUnaryRpc_InvalidPayload_SendsError) {
std::array<byte, 8> bad_payload{byte{0xFF}, byte{0xAA}, byte{0xDD}};
ServerContextForTest<FakeService> context(kSyncUnary);
rpc_lock().lock();
kSyncUnary.Invoke(context.get(), context.request(bad_payload));
const Packet& packet = context.output().last_packet();
EXPECT_EQ(PacketType::SERVER_ERROR, packet.type());
EXPECT_EQ(Status::DataLoss(), packet.status());
EXPECT_EQ(context.service_id(), packet.service_id());
EXPECT_EQ(kSyncUnary.id(), packet.method_id());
}
TEST(NanopbMethod, AsyncUnaryRpc_ResponseEncodingFails_SendsInternalError) {
constexpr int64_t value = 0x7FFFFFFF'FFFFFF00ll;
PW_ENCODE_PB(
pw_rpc_test_TestRequest, request, .integer = value, .status_code = 0);
ServerContextForTest<FakeService> context(kAsyncUnary);
context.service().fail_to_encode_async_unary_response = true;
rpc_lock().lock();
kAsyncUnary.Invoke(context.get(), context.request(request));
const Packet& packet = context.output().last_packet();
EXPECT_EQ(PacketType::SERVER_ERROR, packet.type());
EXPECT_EQ(Status::Internal(), packet.status());
EXPECT_EQ(context.service_id(), packet.service_id());
EXPECT_EQ(kAsyncUnary.id(), packet.method_id());
EXPECT_EQ(value, context.service().last_request.integer);
}
TEST(NanopbMethod, ServerStreamingRpc_SendsNothingWhenInitiallyCalled) {
PW_ENCODE_PB(
pw_rpc_test_TestRequest, request, .integer = 555, .status_code = 0);
ServerContextForTest<FakeService> context(kServerStream);
rpc_lock().lock();
kServerStream.Invoke(context.get(), context.request(request));
EXPECT_EQ(0u, context.output().total_packets());
EXPECT_EQ(555, context.service().last_request.integer);
}
TEST(NanopbMethod, ServerWriter_SendsResponse) {
ServerContextForTest<FakeService> context(kServerStream);
rpc_lock().lock();
kServerStream.Invoke(context.get(), context.request({}));
EXPECT_EQ(OkStatus(), context.service().last_writer.Write({.value = 100}));
PW_ENCODE_PB(pw_rpc_test_TestResponse, payload, .value = 100);
std::array<byte, 128> encoded_response = {};
auto encoded = context.server_stream(payload).Encode(encoded_response);
ASSERT_EQ(OkStatus(), encoded.status());
ConstByteSpan sent_payload = context.output().last_packet().payload();
EXPECT_TRUE(pw::containers::Equal(payload, sent_payload));
}
TEST(NanopbMethod, ServerWriter_WriteWhenClosed_ReturnsFailedPrecondition) {
ServerContextForTest<FakeService> context(kServerStream);
rpc_lock().lock();
kServerStream.Invoke(context.get(), context.request({}));
EXPECT_EQ(OkStatus(), context.service().last_writer.Finish());
EXPECT_TRUE(context.service()
.last_writer.Write({.value = 100})
.IsFailedPrecondition());
}
TEST(NanopbMethod, ServerWriter_WriteAfterMoved_ReturnsFailedPrecondition) {
ServerContextForTest<FakeService> context(kServerStream);
rpc_lock().lock();
kServerStream.Invoke(context.get(), context.request({}));
NanopbServerWriter<pw_rpc_test_TestResponse> new_writer =
std::move(context.service().last_writer);
EXPECT_EQ(OkStatus(), new_writer.Write({.value = 100}));
EXPECT_EQ(Status::FailedPrecondition(),
context.service().last_writer.Write({.value = 100}));
EXPECT_EQ(Status::FailedPrecondition(),
context.service().last_writer.Finish());
EXPECT_EQ(OkStatus(), new_writer.Finish());
}
TEST(NanopbMethod, ServerStreamingRpc_ResponseEncodingFails_InternalError) {
ServerContextForTest<FakeService> context(kServerStream);
rpc_lock().lock();
kServerStream.Invoke(context.get(), context.request({}));
EXPECT_EQ(OkStatus(), context.service().last_writer.Write({}));
pw_rpc_test_TestResponse response = pw_rpc_test_TestResponse_init_default;
response.repeated_field.funcs.encode =
[](pb_ostream_t*, const pb_field_t*, void* const*) { return false; };
EXPECT_EQ(Status::Internal(), context.service().last_writer.Write(response));
}
TEST(NanopbMethod, ServerReader_HandlesRequests) {
ServerContextForTest<FakeService> context(kClientStream);
rpc_lock().lock();
kClientStream.Invoke(context.get(), context.request({}));
pw_rpc_test_TestRequest request_struct{};
context.service().last_reader.set_on_next(
[&request_struct](const pw_rpc_test_TestRequest& req) {
request_struct = req;
});
PW_ENCODE_PB(
pw_rpc_test_TestRequest, request, .integer = 1 << 30, .status_code = 9);
std::array<byte, 128> encoded_request = {};
auto encoded = context.client_stream(request).Encode(encoded_request);
ASSERT_EQ(OkStatus(), encoded.status());
ASSERT_EQ(OkStatus(), context.server().ProcessPacket(*encoded));
EXPECT_EQ(request_struct.integer, 1 << 30);
EXPECT_EQ(request_struct.status_code, 9u);
}
TEST(NanopbMethod, ServerReaderWriter_WritesResponses) {
ServerContextForTest<FakeService> context(kBidirectionalStream);
rpc_lock().lock();
kBidirectionalStream.Invoke(context.get(), context.request({}));
EXPECT_EQ(OkStatus(),
context.service().last_reader_writer.Write({.value = 100}));
PW_ENCODE_PB(pw_rpc_test_TestResponse, payload, .value = 100);
std::array<byte, 128> encoded_response = {};
auto encoded = context.server_stream(payload).Encode(encoded_response);
ASSERT_EQ(OkStatus(), encoded.status());
ConstByteSpan sent_payload = context.output().last_packet().payload();
EXPECT_TRUE(pw::containers::Equal(payload, sent_payload));
}
TEST(NanopbMethod, ServerReaderWriter_HandlesRequests) {
ServerContextForTest<FakeService> context(kBidirectionalStream);
rpc_lock().lock();
kBidirectionalStream.Invoke(context.get(), context.request({}));
pw_rpc_test_TestRequest request_struct{};
context.service().last_reader_writer.set_on_next(
[&request_struct](const pw_rpc_test_TestRequest& req) {
request_struct = req;
});
PW_ENCODE_PB(
pw_rpc_test_TestRequest, request, .integer = 1 << 29, .status_code = 8);
std::array<byte, 128> encoded_request = {};
auto encoded = context.client_stream(request).Encode(encoded_request);
ASSERT_EQ(OkStatus(), encoded.status());
ASSERT_EQ(OkStatus(), context.server().ProcessPacket(*encoded));
EXPECT_EQ(request_struct.integer, 1 << 29);
EXPECT_EQ(request_struct.status_code, 8u);
}
} // namespace
} // namespace pw::rpc::internal
PW_MODIFY_DIAGNOSTICS_POP();