pw_rpc/channel_test.cc - pigweed/pigweed - Git at Google

 // 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/channel.h"

 #include <cstddef>

 #include "gtest/gtest.h"
 #include "pw_rpc/internal/packet.h"
 #include "pw_rpc/internal/test_utils.h"

 namespace pw::rpc::internal {
 namespace {

 TEST(ChannelOutput, Name) {
   class NameTester : public ChannelOutput {
    public:
     NameTester(const char* name) : ChannelOutput(name) {}
     Status Send(span<const std::byte>) override { return OkStatus(); }
   };

   EXPECT_STREQ("hello_world", NameTester("hello_world").name());
   EXPECT_EQ(nullptr, NameTester(nullptr).name());
 }

 constexpr Packet kTestPacket(
     PacketType::RESPONSE, 23, 42, 100, 0, {}, Status::NotFound());
 const size_t kReservedSize = 2 /* type */ + 2 /* channel */ + 5 /* service */ +
                              5 /* method */ + 2 /* payload key */ +
                              2 /* status (if not OK) */;

 enum class ChannelId {
   kOne = 1,
   kTwo = 2,
 };

 TEST(Channel, MaxSafePayload) {
   constexpr size_t kUint32Max = std::numeric_limits<uint32_t>::max();
   constexpr size_t kMaxPayloadSize = 64;

   constexpr size_t kTestPayloadSize = MaxSafePayloadSize(kMaxPayloadSize);

   // Because it's impractical to test a payload that nears the limits of a
   // uint32 varint, calculate the difference when using a smaller payload.
   constexpr size_t kPayloadSizeTestLimitations =
       varint::EncodedSize(kUint32Max) - varint::EncodedSize(kTestPayloadSize);

   // The buffer to use for encoding the RPC packet.
   std::array<std::byte, kMaxPayloadSize - kPayloadSizeTestLimitations> buffer;

   std::array<std::byte, kTestPayloadSize> payload;
   for (size_t i = 0; i < payload.size(); i++) {
     payload[i] = std::byte(i % std::numeric_limits<uint8_t>::max());
   }

   Packet packet(PacketType::SERVER_STREAM,
                 /*channel_id=*/kUint32Max,  // Varint, needs to be uint32_t max.
                 /*service_id=*/42,       // Fixed-width. Value doesn't matter.
                 /*method_id=*/100,       // Fixed-width. Value doesn't matter.
                 /*call_id=*/kUint32Max,  // Varint, needs to be uint32_t max.
                 payload,
                 Status::Unauthenticated());

   Result<ConstByteSpan> result = packet.Encode(buffer);
   ASSERT_EQ(OkStatus(), result.status());
 }

 TEST(Channel, MaxSafePayload_OffByOne) {
   constexpr size_t kUint32Max = std::numeric_limits<uint32_t>::max();
   constexpr size_t kMaxPayloadSize = 64;

   constexpr size_t kTestPayloadSize = MaxSafePayloadSize(kMaxPayloadSize);

   // Because it's impractical to test a payload that nears the limits of a
   // uint32 varint, calculate the difference when using a smaller payload.
   constexpr size_t kPayloadSizeTestLimitations =
       varint::EncodedSize(kUint32Max) - varint::EncodedSize(kTestPayloadSize);

   // The buffer to use for encoding the RPC packet.
   std::array<std::byte, kMaxPayloadSize - kPayloadSizeTestLimitations - 1>
       buffer;

   std::array<std::byte, kTestPayloadSize> payload;
   for (size_t i = 0; i < payload.size(); i++) {
     payload[i] = std::byte(i % std::numeric_limits<uint8_t>::max());
   }

   Packet packet(PacketType::SERVER_STREAM,
                 /*channel_id=*/kUint32Max,  // Varint, needs to be uint32_t max.
                 /*service_id=*/42,       // Fixed-width. Value doesn't matter.
                 /*method_id=*/100,       // Fixed-width. Value doesn't matter.
                 /*call_id=*/kUint32Max,  // Varint, needs to be uint32_t max.
                 payload,
                 Status::Unauthenticated());

   Result<ConstByteSpan> result = packet.Encode(buffer);
   ASSERT_EQ(Status::ResourceExhausted(), result.status());
 }

 TEST(Channel, Create_FromEnum) {
   constexpr rpc::Channel one = Channel::Create<ChannelId::kOne>(nullptr);
   constexpr rpc::Channel two = Channel::Create<ChannelId::kTwo>(nullptr);
   static_assert(one.id() == 1);
   static_assert(two.id() == 2);
 }

 TEST(Channel, TestPacket_ReservedSizeMatchesMinEncodedSizeBytes) {
   EXPECT_EQ(kReservedSize, kTestPacket.MinEncodedSizeBytes());
 }

 TEST(ExtractChannelId, ValidPacket) {
   std::byte buffer[64] = {};
   Result<ConstByteSpan> result = kTestPacket.Encode(buffer);
   ASSERT_EQ(result.status(), OkStatus());

   Result<uint32_t> channel_id = ExtractChannelId(*result);
   ASSERT_EQ(channel_id.status(), OkStatus());
   EXPECT_EQ(*channel_id, 23u);
 }

 TEST(ExtractChannelId, InvalidPacket) {
   constexpr std::byte buffer[64] = {std::byte{1}, std::byte{2}};

   Result<uint32_t> channel_id = ExtractChannelId(buffer);

   EXPECT_EQ(channel_id.status(), Status::DataLoss());
 }

 }  // namespace
 }  // namespace pw::rpc::internal
	// 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/channel.h"

	#include <cstddef>

	#include "gtest/gtest.h"
	#include "pw_rpc/internal/packet.h"
	#include "pw_rpc/internal/test_utils.h"

	namespace pw::rpc::internal {
	namespace {

	TEST(ChannelOutput, Name) {
	class NameTester : public ChannelOutput {
	public:
	NameTester(const char* name) : ChannelOutput(name) {}
	Status Send(span<const std::byte>) override { return OkStatus(); }
	};

	EXPECT_STREQ("hello_world", NameTester("hello_world").name());
	EXPECT_EQ(nullptr, NameTester(nullptr).name());
	}

	constexpr Packet kTestPacket(
	PacketType::RESPONSE, 23, 42, 100, 0, {}, Status::NotFound());
	const size_t kReservedSize = 2 /* type / + 2 / channel / + 5 / service */ +
	5 /* method / + 2 / payload key */ +
	2 /* status (if not OK) */;

	enum class ChannelId {
	kOne = 1,
	kTwo = 2,
	};

	TEST(Channel, MaxSafePayload) {
	constexpr size_t kUint32Max = std::numeric_limits<uint32_t>::max();
	constexpr size_t kMaxPayloadSize = 64;

	constexpr size_t kTestPayloadSize = MaxSafePayloadSize(kMaxPayloadSize);

	// Because it's impractical to test a payload that nears the limits of a
	// uint32 varint, calculate the difference when using a smaller payload.
	constexpr size_t kPayloadSizeTestLimitations =
	varint::EncodedSize(kUint32Max) - varint::EncodedSize(kTestPayloadSize);

	// The buffer to use for encoding the RPC packet.
	std::array<std::byte, kMaxPayloadSize - kPayloadSizeTestLimitations> buffer;

	std::array<std::byte, kTestPayloadSize> payload;
	for (size_t i = 0; i < payload.size(); i++) {
	payload[i] = std::byte(i % std::numeric_limits<uint8_t>::max());
	}

	Packet packet(PacketType::SERVER_STREAM,
	/channel_id=/kUint32Max, // Varint, needs to be uint32_t max.
	/service_id=/42, // Fixed-width. Value doesn't matter.
	/method_id=/100, // Fixed-width. Value doesn't matter.
	/call_id=/kUint32Max, // Varint, needs to be uint32_t max.
	payload,
	Status::Unauthenticated());

	Result<ConstByteSpan> result = packet.Encode(buffer);
	ASSERT_EQ(OkStatus(), result.status());
	}

	TEST(Channel, MaxSafePayload_OffByOne) {
	constexpr size_t kUint32Max = std::numeric_limits<uint32_t>::max();
	constexpr size_t kMaxPayloadSize = 64;

	constexpr size_t kTestPayloadSize = MaxSafePayloadSize(kMaxPayloadSize);

	// Because it's impractical to test a payload that nears the limits of a
	// uint32 varint, calculate the difference when using a smaller payload.
	constexpr size_t kPayloadSizeTestLimitations =
	varint::EncodedSize(kUint32Max) - varint::EncodedSize(kTestPayloadSize);

	// The buffer to use for encoding the RPC packet.
	std::array<std::byte, kMaxPayloadSize - kPayloadSizeTestLimitations - 1>
	buffer;

	std::array<std::byte, kTestPayloadSize> payload;
	for (size_t i = 0; i < payload.size(); i++) {
	payload[i] = std::byte(i % std::numeric_limits<uint8_t>::max());
	}

	Packet packet(PacketType::SERVER_STREAM,
	/channel_id=/kUint32Max, // Varint, needs to be uint32_t max.
	/service_id=/42, // Fixed-width. Value doesn't matter.
	/method_id=/100, // Fixed-width. Value doesn't matter.
	/call_id=/kUint32Max, // Varint, needs to be uint32_t max.
	payload,
	Status::Unauthenticated());

	Result<ConstByteSpan> result = packet.Encode(buffer);
	ASSERT_EQ(Status::ResourceExhausted(), result.status());
	}

	TEST(Channel, Create_FromEnum) {
	constexpr rpc::Channel one = Channel::Create<ChannelId::kOne>(nullptr);
	constexpr rpc::Channel two = Channel::Create<ChannelId::kTwo>(nullptr);
	static_assert(one.id() == 1);
	static_assert(two.id() == 2);
	}

	TEST(Channel, TestPacket_ReservedSizeMatchesMinEncodedSizeBytes) {
	EXPECT_EQ(kReservedSize, kTestPacket.MinEncodedSizeBytes());
	}

	TEST(ExtractChannelId, ValidPacket) {
	std::byte buffer[64] = {};
	Result<ConstByteSpan> result = kTestPacket.Encode(buffer);
	ASSERT_EQ(result.status(), OkStatus());

	Result<uint32_t> channel_id = ExtractChannelId(*result);
	ASSERT_EQ(channel_id.status(), OkStatus());
	EXPECT_EQ(*channel_id, 23u);
	}

	TEST(ExtractChannelId, InvalidPacket) {
	constexpr std::byte buffer[64] = {std::byte{1}, std::byte{2}};

	Result<uint32_t> channel_id = ExtractChannelId(buffer);

	EXPECT_EQ(channel_id.status(), Status::DataLoss());
	}

	} // namespace
	} // namespace pw::rpc::internal