pw_bluetooth_hci/packet.cc - pigweed/pigweed - Git at Google

 // Copyright 2021 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_bluetooth_hci/packet.h"

 #include "pw_bytes/byte_builder.h"
 #include "pw_bytes/endian.h"
 #include "pw_status/try.h"

 namespace pw::bluetooth_hci {
 namespace {

 using pw::bytes::ReadInOrder;

 }  // namespace

 Result<ConstByteSpan> CommandPacket::Encode(ByteSpan buffer,
                                             endian order) const {
   ByteBuilder builder(buffer);
   builder.PutUint16(opcode_, order);
   builder.PutUint8(parameters_.size_bytes());
   builder.append(parameters_);
   PW_TRY(builder.status());
   return ConstByteSpan(builder.data(), builder.size());
 }

 std::optional<CommandPacket> CommandPacket::Decode(ConstByteSpan data,
                                                    endian order) {
   if (data.size_bytes() < kHeaderSizeBytes) {
     return std::nullopt;  // Not enough data to parse the packet header.
   }

   const uint8_t parameter_total_length =
       static_cast<uint8_t>(data[kParameterTotalLengthByteOffset]);
   if (data.size_bytes() < (kHeaderSizeBytes + parameter_total_length)) {
     return std::nullopt;  // Not enough data to cover the parameter bytes.
   }

   const uint16_t opcode =
       ReadInOrder<uint16_t>(order, &data[kOpcodeByteOffset]);
   return CommandPacket(opcode,
                        data.subspan(kHeaderSizeBytes, parameter_total_length));
 }

 Result<ConstByteSpan> AsyncDataPacket::Encode(ByteSpan buffer,
                                               endian order) const {
   ByteBuilder builder(buffer);
   builder.PutUint16(handle_and_fragmentation_bits_, order);
   builder.PutUint16(data_.size_bytes(), order);
   builder.append(data_);
   PW_TRY(builder.status());
   return ConstByteSpan(builder.data(), builder.size());
 }

 std::optional<AsyncDataPacket> AsyncDataPacket::Decode(ConstByteSpan data,
                                                        endian order) {
   if (data.size_bytes() < kHeaderSizeBytes) {
     return std::nullopt;  // Not enough data to parse the packet header.
   }

   const uint16_t data_total_length =
       ReadInOrder<uint16_t>(order, &data[kDataTotalLengthByteOffset]);
   if (data.size_bytes() < (kHeaderSizeBytes + data_total_length)) {
     return std::nullopt;  // Not enough data to cover the data bytes.
   }

   const uint16_t handle_and_flag_bits = ReadInOrder<uint16_t>(
       order, &data[kHandleAndFragmentationBitsByteOffset]);
   return AsyncDataPacket(handle_and_flag_bits,
                          data.subspan(kHeaderSizeBytes, data_total_length));
 }

 Result<ConstByteSpan> SyncDataPacket::Encode(ByteSpan buffer,
                                              endian order) const {
   ByteBuilder builder(buffer);
   builder.PutUint16(handle_and_status_bits_, order);
   builder.PutUint8(data_.size_bytes());
   builder.append(data_);
   PW_TRY(builder.status());
   return ConstByteSpan(builder.data(), builder.size());
 }

 std::optional<SyncDataPacket> SyncDataPacket::Decode(ConstByteSpan data,
                                                      endian order) {
   if (data.size_bytes() < kHeaderSizeBytes) {
     return std::nullopt;  // Not enough data to parse the packet header.
   }

   const uint8_t data_total_length =
       static_cast<uint8_t>(data[kDataTotalLengthByteOffset]);
   if (data.size_bytes() < (kHeaderSizeBytes + data_total_length)) {
     return std::nullopt;  // Not enough data to cover the data bytes.
   }

   const uint16_t handle_and_status_bits =
       ReadInOrder<uint16_t>(order, &data[kHandleAndStatusBitsByteOffset]);
   return SyncDataPacket(handle_and_status_bits,
                         data.subspan(kHeaderSizeBytes, data_total_length));
 }

 Result<ConstByteSpan> EventPacket::Encode(ByteSpan buffer) const {
   ByteBuilder builder(buffer);
   builder.PutUint8(event_code_);
   builder.PutUint8(parameters_.size_bytes());
   builder.append(parameters_);
   PW_TRY(builder.status());
   return ConstByteSpan(builder.data(), builder.size());
 }

 std::optional<EventPacket> EventPacket::Decode(ConstByteSpan data) {
   if (data.size_bytes() < kHeaderSizeBytes) {
     return std::nullopt;  // Not enough data to parse the packet header.
   }

   const uint8_t parameter_total_length =
       static_cast<uint8_t>(data[kParameterTotalLengthByteOffset]);
   if (data.size_bytes() < (kHeaderSizeBytes + parameter_total_length)) {
     return std::nullopt;  // Not enough data to cover the parameter bytes.
   }

   const uint8_t event_code = static_cast<uint8_t>(data[kEventCodeByteOffset]);
   return EventPacket(event_code,
                      data.subspan(kHeaderSizeBytes, parameter_total_length));
 }

 }  // namespace pw::bluetooth_hci
	// Copyright 2021 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_bluetooth_hci/packet.h"

	#include "pw_bytes/byte_builder.h"
	#include "pw_bytes/endian.h"
	#include "pw_status/try.h"

	namespace pw::bluetooth_hci {
	namespace {

	using pw::bytes::ReadInOrder;

	} // namespace

	Result<ConstByteSpan> CommandPacket::Encode(ByteSpan buffer,
	endian order) const {
	ByteBuilder builder(buffer);
	builder.PutUint16(opcode_, order);
	builder.PutUint8(parameters_.size_bytes());
	builder.append(parameters_);
	PW_TRY(builder.status());
	return ConstByteSpan(builder.data(), builder.size());
	}

	std::optional<CommandPacket> CommandPacket::Decode(ConstByteSpan data,
	endian order) {
	if (data.size_bytes() < kHeaderSizeBytes) {
	return std::nullopt; // Not enough data to parse the packet header.
	}

	const uint8_t parameter_total_length =
	static_cast<uint8_t>(data[kParameterTotalLengthByteOffset]);
	if (data.size_bytes() < (kHeaderSizeBytes + parameter_total_length)) {
	return std::nullopt; // Not enough data to cover the parameter bytes.
	}

	const uint16_t opcode =
	ReadInOrder<uint16_t>(order, &data[kOpcodeByteOffset]);
	return CommandPacket(opcode,
	data.subspan(kHeaderSizeBytes, parameter_total_length));
	}

	Result<ConstByteSpan> AsyncDataPacket::Encode(ByteSpan buffer,
	endian order) const {
	ByteBuilder builder(buffer);
	builder.PutUint16(handle_and_fragmentation_bits_, order);
	builder.PutUint16(data_.size_bytes(), order);
	builder.append(data_);
	PW_TRY(builder.status());
	return ConstByteSpan(builder.data(), builder.size());
	}

	std::optional<AsyncDataPacket> AsyncDataPacket::Decode(ConstByteSpan data,
	endian order) {
	if (data.size_bytes() < kHeaderSizeBytes) {
	return std::nullopt; // Not enough data to parse the packet header.
	}

	const uint16_t data_total_length =
	ReadInOrder<uint16_t>(order, &data[kDataTotalLengthByteOffset]);
	if (data.size_bytes() < (kHeaderSizeBytes + data_total_length)) {
	return std::nullopt; // Not enough data to cover the data bytes.
	}

	const uint16_t handle_and_flag_bits = ReadInOrder<uint16_t>(
	order, &data[kHandleAndFragmentationBitsByteOffset]);
	return AsyncDataPacket(handle_and_flag_bits,
	data.subspan(kHeaderSizeBytes, data_total_length));
	}

	Result<ConstByteSpan> SyncDataPacket::Encode(ByteSpan buffer,
	endian order) const {
	ByteBuilder builder(buffer);
	builder.PutUint16(handle_and_status_bits_, order);
	builder.PutUint8(data_.size_bytes());
	builder.append(data_);
	PW_TRY(builder.status());
	return ConstByteSpan(builder.data(), builder.size());
	}

	std::optional<SyncDataPacket> SyncDataPacket::Decode(ConstByteSpan data,
	endian order) {
	if (data.size_bytes() < kHeaderSizeBytes) {
	return std::nullopt; // Not enough data to parse the packet header.
	}

	const uint8_t data_total_length =
	static_cast<uint8_t>(data[kDataTotalLengthByteOffset]);
	if (data.size_bytes() < (kHeaderSizeBytes + data_total_length)) {
	return std::nullopt; // Not enough data to cover the data bytes.
	}

	const uint16_t handle_and_status_bits =
	ReadInOrder<uint16_t>(order, &data[kHandleAndStatusBitsByteOffset]);
	return SyncDataPacket(handle_and_status_bits,
	data.subspan(kHeaderSizeBytes, data_total_length));
	}

	Result<ConstByteSpan> EventPacket::Encode(ByteSpan buffer) const {
	ByteBuilder builder(buffer);
	builder.PutUint8(event_code_);
	builder.PutUint8(parameters_.size_bytes());
	builder.append(parameters_);
	PW_TRY(builder.status());
	return ConstByteSpan(builder.data(), builder.size());
	}

	std::optional<EventPacket> EventPacket::Decode(ConstByteSpan data) {
	if (data.size_bytes() < kHeaderSizeBytes) {
	return std::nullopt; // Not enough data to parse the packet header.
	}

	const uint8_t parameter_total_length =
	static_cast<uint8_t>(data[kParameterTotalLengthByteOffset]);
	if (data.size_bytes() < (kHeaderSizeBytes + parameter_total_length)) {
	return std::nullopt; // Not enough data to cover the parameter bytes.
	}

	const uint8_t event_code = static_cast<uint8_t>(data[kEventCodeByteOffset]);
	return EventPacket(event_code,
	data.subspan(kHeaderSizeBytes, parameter_total_length));
	}

	} // namespace pw::bluetooth_hci