pw_hdlc/encoder_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_hdlc/encoder.h"

 #include <algorithm>
 #include <array>
 #include <cstddef>

 #include "gtest/gtest.h"
 #include "pw_bytes/array.h"
 #include "pw_hdlc/encoded_size.h"
 #include "pw_hdlc/internal/encoder.h"
 #include "pw_hdlc/internal/protocol.h"
 #include "pw_stream/memory_stream.h"

 using std::byte;

 namespace pw::hdlc {
 namespace {

 constexpr uint8_t kAddress = 0x7B;  // 123
 constexpr uint8_t kEncodedAddress = (kAddress << 1) | 1;

 #define EXPECT_ENCODER_WROTE(...)                                           \
   do {                                                                      \
     constexpr auto expected_data = (__VA_ARGS__);                           \
     EXPECT_EQ(writer_.bytes_written(), expected_data.size());               \
     EXPECT_EQ(                                                              \
         std::memcmp(                                                        \
             writer_.data(), expected_data.data(), writer_.bytes_written()), \
         0);                                                                 \
   } while (0)

 class WriteUnnumberedFrame : public ::testing::Test {
  protected:
   WriteUnnumberedFrame() : writer_(buffer_) {}

   stream::MemoryWriter writer_;
   // Allocate a buffer that will fit any 7-byte payload.
   std::array<byte, MaxEncodedFrameSize(7)> buffer_;
 };

 constexpr byte kUnnumberedControl = byte{0x3};

 TEST_F(WriteUnnumberedFrame, EmptyPayload) {
   ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, span<byte>(), writer_));
   EXPECT_ENCODER_WROTE(bytes::Concat(
       kFlag, kEncodedAddress, kUnnumberedControl, uint32_t{0x832d343f}, kFlag));
 }

 TEST_F(WriteUnnumberedFrame, OneBytePayload) {
   ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("A"), writer_));
   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      kEncodedAddress,
                                      kUnnumberedControl,
                                      'A',
                                      uint32_t{0x653c9e82},
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, OneBytePayload_Escape0x7d) {
   ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::Array<0x7d>(), writer_));
   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      kEncodedAddress,
                                      kUnnumberedControl,
                                      kEscape,
                                      byte{0x7d} ^ byte{0x20},
                                      uint32_t{0x4a53e205},
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, OneBytePayload_Escape0x7E) {
   ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::Array<0x7e>(), writer_));
   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      kEncodedAddress,
                                      kUnnumberedControl,
                                      kEscape,
                                      byte{0x7e} ^ byte{0x20},
                                      uint32_t{0xd35ab3bf},
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, AddressNeedsEscaping) {
   // Becomes 0x7d when encoded.
   constexpr uint8_t kEscapeRequiredAddress = 0x7d >> 1;
   ASSERT_EQ(OkStatus(),
             WriteUIFrame(kEscapeRequiredAddress, bytes::String("A"), writer_));
   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      kEscape,
                                      byte{0x5d},
                                      kUnnumberedControl,
                                      'A',
                                      uint32_t{0x899E00D4},
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, Crc32NeedsEscaping) {
   ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("aa"), writer_));

   // The CRC-32 of {kEncodedAddress, kUnnumberedControl, "aa"} is 0x7ee04473, so
   // the 0x7e must be escaped.
   constexpr auto expected_crc32 = bytes::Array<0x73, 0x44, 0xe0, 0x7d, 0x5e>();
   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      kEncodedAddress,
                                      kUnnumberedControl,
                                      bytes::String("aa"),
                                      expected_crc32,
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, MultiplePayloads) {
   ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("ABC"), writer_));
   ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("DEF"), writer_));
   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      kEncodedAddress,
                                      kUnnumberedControl,
                                      bytes::String("ABC"),
                                      uint32_t{0x72410ee4},
                                      kFlag,
                                      kFlag,
                                      kEncodedAddress,
                                      kUnnumberedControl,
                                      bytes::String("DEF"),
                                      uint32_t{0x4ba1ae47},
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, PayloadWithNoEscapes) {
   ASSERT_EQ(
       OkStatus(),
       WriteUIFrame(kAddress, bytes::String("1995 toyota corolla"), writer_));

   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      kEncodedAddress,
                                      kUnnumberedControl,
                                      bytes::String("1995 toyota corolla"),
                                      uint32_t{0x53ee911c},
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, MultibyteAddress) {
   ASSERT_EQ(OkStatus(), WriteUIFrame(0x3fff, bytes::String("abc"), writer_));

   EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
                                      bytes::String("\xfe\xff"),
                                      kUnnumberedControl,
                                      bytes::String("abc"),
                                      uint32_t{0x8cee2978},
                                      kFlag));
 }

 TEST_F(WriteUnnumberedFrame, PayloadWithMultipleEscapes) {
   ASSERT_EQ(
       OkStatus(),
       WriteUIFrame(kAddress,
                    bytes::Array<0x7E, 0x7B, 0x61, 0x62, 0x63, 0x7D, 0x7E>(),
                    writer_));
   EXPECT_ENCODER_WROTE(bytes::Concat(
       kFlag,
       kEncodedAddress,
       kUnnumberedControl,
       bytes::
           Array<0x7D, 0x5E, 0x7B, 0x61, 0x62, 0x63, 0x7D, 0x5D, 0x7D, 0x5E>(),
       uint32_t{0x1563a4e6},
       kFlag));
 }

 TEST_F(WriteUnnumberedFrame, PayloadTooLarge_WritesNothing) {
   constexpr auto data = bytes::Initialized<sizeof(buffer_)>(0x7e);
   EXPECT_EQ(Status::ResourceExhausted(), WriteUIFrame(kAddress, data, writer_));
   EXPECT_EQ(0u, writer_.bytes_written());
 }

 class ErrorWriter : public stream::NonSeekableWriter {
  private:
   Status DoWrite(ConstByteSpan) override { return Status::Unimplemented(); }
 };

 TEST(WriteUIFrame, WriterError) {
   ErrorWriter writer;
   EXPECT_EQ(Status::Unimplemented(),
             WriteUIFrame(kAddress, bytes::Array<0x01>(), writer));
 }

 }  // namespace
 }  // namespace pw::hdlc
	// 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_hdlc/encoder.h"

	#include <algorithm>
	#include <array>
	#include <cstddef>

	#include "gtest/gtest.h"
	#include "pw_bytes/array.h"
	#include "pw_hdlc/encoded_size.h"
	#include "pw_hdlc/internal/encoder.h"
	#include "pw_hdlc/internal/protocol.h"
	#include "pw_stream/memory_stream.h"

	using std::byte;

	namespace pw::hdlc {
	namespace {

	constexpr uint8_t kAddress = 0x7B; // 123
	constexpr uint8_t kEncodedAddress = (kAddress << 1) \| 1;

	#define EXPECT_ENCODER_WROTE(...) \
	do { \
	constexpr auto expected_data = (__VA_ARGS__); \
	EXPECT_EQ(writer_.bytes_written(), expected_data.size()); \
	EXPECT_EQ( \
	std::memcmp( \
	writer_.data(), expected_data.data(), writer_.bytes_written()), \
	0); \
	} while (0)

	class WriteUnnumberedFrame : public ::testing::Test {
	protected:
	WriteUnnumberedFrame() : writer_(buffer_) {}

	stream::MemoryWriter writer_;
	// Allocate a buffer that will fit any 7-byte payload.
	std::array<byte, MaxEncodedFrameSize(7)> buffer_;
	};

	constexpr byte kUnnumberedControl = byte{0x3};

	TEST_F(WriteUnnumberedFrame, EmptyPayload) {
	ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, span<byte>(), writer_));
	EXPECT_ENCODER_WROTE(bytes::Concat(
	kFlag, kEncodedAddress, kUnnumberedControl, uint32_t{0x832d343f}, kFlag));
	}

	TEST_F(WriteUnnumberedFrame, OneBytePayload) {
	ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("A"), writer_));
	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	'A',
	uint32_t{0x653c9e82},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, OneBytePayload_Escape0x7d) {
	ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::Array<0x7d>(), writer_));
	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	kEscape,
	byte{0x7d} ^ byte{0x20},
	uint32_t{0x4a53e205},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, OneBytePayload_Escape0x7E) {
	ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::Array<0x7e>(), writer_));
	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	kEscape,
	byte{0x7e} ^ byte{0x20},
	uint32_t{0xd35ab3bf},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, AddressNeedsEscaping) {
	// Becomes 0x7d when encoded.
	constexpr uint8_t kEscapeRequiredAddress = 0x7d >> 1;
	ASSERT_EQ(OkStatus(),
	WriteUIFrame(kEscapeRequiredAddress, bytes::String("A"), writer_));
	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	kEscape,
	byte{0x5d},
	kUnnumberedControl,
	'A',
	uint32_t{0x899E00D4},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, Crc32NeedsEscaping) {
	ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("aa"), writer_));

	// The CRC-32 of {kEncodedAddress, kUnnumberedControl, "aa"} is 0x7ee04473, so
	// the 0x7e must be escaped.
	constexpr auto expected_crc32 = bytes::Array<0x73, 0x44, 0xe0, 0x7d, 0x5e>();
	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	bytes::String("aa"),
	expected_crc32,
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, MultiplePayloads) {
	ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("ABC"), writer_));
	ASSERT_EQ(OkStatus(), WriteUIFrame(kAddress, bytes::String("DEF"), writer_));
	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	bytes::String("ABC"),
	uint32_t{0x72410ee4},
	kFlag,
	kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	bytes::String("DEF"),
	uint32_t{0x4ba1ae47},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, PayloadWithNoEscapes) {
	ASSERT_EQ(
	OkStatus(),
	WriteUIFrame(kAddress, bytes::String("1995 toyota corolla"), writer_));

	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	bytes::String("1995 toyota corolla"),
	uint32_t{0x53ee911c},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, MultibyteAddress) {
	ASSERT_EQ(OkStatus(), WriteUIFrame(0x3fff, bytes::String("abc"), writer_));

	EXPECT_ENCODER_WROTE(bytes::Concat(kFlag,
	bytes::String("\xfe\xff"),
	kUnnumberedControl,
	bytes::String("abc"),
	uint32_t{0x8cee2978},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, PayloadWithMultipleEscapes) {
	ASSERT_EQ(
	OkStatus(),
	WriteUIFrame(kAddress,
	bytes::Array<0x7E, 0x7B, 0x61, 0x62, 0x63, 0x7D, 0x7E>(),
	writer_));
	EXPECT_ENCODER_WROTE(bytes::Concat(
	kFlag,
	kEncodedAddress,
	kUnnumberedControl,
	bytes::
	Array<0x7D, 0x5E, 0x7B, 0x61, 0x62, 0x63, 0x7D, 0x5D, 0x7D, 0x5E>(),
	uint32_t{0x1563a4e6},
	kFlag));
	}

	TEST_F(WriteUnnumberedFrame, PayloadTooLarge_WritesNothing) {
	constexpr auto data = bytes::Initialized<sizeof(buffer_)>(0x7e);
	EXPECT_EQ(Status::ResourceExhausted(), WriteUIFrame(kAddress, data, writer_));
	EXPECT_EQ(0u, writer_.bytes_written());
	}

	class ErrorWriter : public stream::NonSeekableWriter {
	private:
	Status DoWrite(ConstByteSpan) override { return Status::Unimplemented(); }
	};

	TEST(WriteUIFrame, WriterError) {
	ErrorWriter writer;
	EXPECT_EQ(Status::Unimplemented(),
	WriteUIFrame(kAddress, bytes::Array<0x01>(), writer));
	}

	} // namespace
	} // namespace pw::hdlc