src/lib/format/protocol_decoder.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2023 Project CHIP Authors
  *    All rights reserved.
  *
  *    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
  *
  *        http://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.
  */
 #pragma once

 #include <lib/core/TLVReader.h>
 #include <lib/format/FlatTreePosition.h>
 #include <lib/format/tlv_meta.h>
 #include <lib/support/StringBuilder.h>
 #include <protocols/Protocols.h>

 namespace chip {
 namespace Decoders {

 /// Represents an individual decoded entry for IM Payloads
 /// Generally a name + value + metadata tuple, where name and value are never NULL.
 class PayloadEntry
 {
 public:
     static constexpr uint32_t kInvalidId = 0xFFFFFFFF;
     enum class IMPayloadType
     {
         kNone = 0, // generally should not be used except initial init
         kValue,    // represents a simple value to output

         kNestingEnter, // Nested struct enter. Has name, empty value
         kNestingExit,  // Nested struct exit (has no name/value)

         // Content payloads
         kAttribute,
         kCommand,
         kEvent,
     };
     PayloadEntry(const PayloadEntry &)             = default;
     PayloadEntry & operator=(const PayloadEntry &) = default;

     PayloadEntry() : mType(IMPayloadType::kNone), mName(""), mValue("") {}

     IMPayloadType GetType() const { return mType; }

     const char * GetName() const { return mName; }
     const char * GetValueText() const { return mValue; }

     /// valid only if payload is an IM Payload
     uint32_t GetClusterId() const { return mClusterId; };

     /// valid only if payload as an Attribute ID
     uint32_t GetAttributeId() const
     {
         VerifyOrReturnValue(mType == IMPayloadType::kAttribute, kInvalidId);
         return mSubId;
     }

     /// valid only if payload as a Command ID
     uint32_t GetCommandId() const
     {
         VerifyOrReturnValue(mType == IMPayloadType::kCommand, kInvalidId);
         return mSubId;
     }

     /// valid only if payload as a Command ID
     uint32_t GetEventId() const
     {
         VerifyOrReturnValue(mType == IMPayloadType::kEvent, kInvalidId);
         return mSubId;
     }

     static PayloadEntry SimpleValue(const char * name, const char * value)
     {
         return PayloadEntry(IMPayloadType::kValue, name, value);
     }

     static PayloadEntry NestingEnter(const char * name) { return PayloadEntry(IMPayloadType::kNestingEnter, name, ""); }

     static PayloadEntry NestingExit() { return PayloadEntry(IMPayloadType::kNestingExit, "", ""); }

     static PayloadEntry AttributePayload(uint32_t cluster_id, uint32_t attribute_id)
     {
         PayloadEntry result(IMPayloadType::kAttribute, "ATTR_DATA", "");
         result.mClusterId = cluster_id;
         result.mSubId     = attribute_id;

         return result;
     }

     static PayloadEntry CommandPayload(uint32_t cluster_id, uint32_t command_id)
     {
         PayloadEntry result(IMPayloadType::kCommand, "COMMAND_DATA", "");
         result.mClusterId = cluster_id;
         result.mSubId     = command_id;
         return result;
     }

     static PayloadEntry EventPayload(uint32_t cluster_id, uint32_t event_id)
     {
         PayloadEntry result(IMPayloadType::kEvent, "EVENT_DATA", "");
         result.mClusterId = cluster_id;
         result.mSubId     = event_id;
         return result;
     }

 private:
     PayloadEntry(IMPayloadType type, const char * name, const char * value) : mType(type), mName(name), mValue(value) {}

     IMPayloadType mType = IMPayloadType::kValue;
     const char * mName  = nullptr;
     const char * mValue = nullptr;

     uint32_t mClusterId = 0;
     uint32_t mSubId     = 0; // attribute, command or event id
 };

 /// Sets up decoding of some Matter data payload
 class PayloadDecoderInitParams
 {
 public:
     using DecodeTree           = const FlatTree::Node<chip::TLVMeta::ItemInfo> *;
     PayloadDecoderInitParams() = default;

     PayloadDecoderInitParams & SetProtocol(Protocols::Id value)
     {
         mProtocol = value;
         return *this;
     }

     PayloadDecoderInitParams & SetMessageType(uint8_t value)
     {
         mMessageType = value;
         return *this;
     }

     PayloadDecoderInitParams & SetProtocolDecodeTree(DecodeTree tree, size_t s)
     {
         mProtocolTree     = tree;
         mProtocolTreeSize = s;
         return *this;
     }

     template <size_t N>
     PayloadDecoderInitParams & SetProtocolDecodeTree(const std::array<const FlatTree::Node<chip::TLVMeta::ItemInfo>, N> & a)
     {
         return SetProtocolDecodeTree(a.data(), N);
     }

     PayloadDecoderInitParams & SetClusterDecodeTree(DecodeTree tree, size_t s)
     {
         mClusterTree     = tree;
         mClusterTreeSize = s;
         return *this;
     }

     template <size_t N>
     PayloadDecoderInitParams & SetClusterDecodeTree(const std::array<const FlatTree::Node<chip::TLVMeta::ItemInfo>, N> & a)
     {
         return SetClusterDecodeTree(a.data(), N);
     }

     DecodeTree GetProtocolDecodeTree() const { return mProtocolTree; }
     size_t GetProtocolDecodeTreeSize() const { return mProtocolTreeSize; }
     DecodeTree GetClusterDecodeTree() const { return mClusterTree; }
     size_t GetClusterDecodeTreeSize() const { return mClusterTreeSize; }

     Protocols::Id GetProtocol() const { return mProtocol; }
     uint8_t GetMessageType() const { return mMessageType; }

 private:
     DecodeTree mProtocolTree = nullptr;
     size_t mProtocolTreeSize = 0;

     DecodeTree mClusterTree = nullptr;
     size_t mClusterTreeSize = 0;

     Protocols::Id mProtocol = Protocols::NotSpecified;
     uint8_t mMessageType    = 0;
 };

 class PayloadDecoderBase
 {
 public:
     static constexpr size_t kMaxDecodeDepth = 16;
     using DecodePosition                    = chip::FlatTree::Position<chip::TLVMeta::ItemInfo, kMaxDecodeDepth>;

     PayloadDecoderBase(const PayloadDecoderInitParams & params, StringBuilderBase & nameBuilder, StringBuilderBase & valueBuilder);

     /// Initialize decoding from the given reader
     /// Will create a copy of the reader, however the copy will contain
     /// pointers in the original reader (so data must stay valid while Next is called)
     void StartDecoding(const TLV::TLVReader & reader);

     void StartDecoding(chip::ByteSpan data)
     {
         TLV::TLVReader reader;
         reader.Init(data);
         StartDecoding(reader);
     }

     /// Get the next decoded entry from the underlying TLV
     ///
     /// If a cluster decoder is set, then kAttribute/kCommand/kEvent are ALWAYS decoded
     /// (even if unknown tags), otherwise they will be returned as separate PayloadEntry values.
     ///
     /// Returns false when decoding finished.
     bool Next(PayloadEntry & entry);

     const TLV::TLVReader & ReadState() const { return mReader; }

 private:
     enum class State
     {
         kStarting,
         kValueRead,   // reading value for Payload
         kContentRead, // reading value for IMContent (i.e. decoded attr/cmd/event)
         kDone,
     };

     /// Move to the given attribute/event/command entry.
     ///
     /// [entry] MUST be of type command/attribute/event.
     ///
     /// This call either moves to "ContentDecoding mode" if content tree is available
     /// or leaves entry unchanged if content decoding tree is not available.
     void MoveToContent(PayloadEntry & entry);

     void NextFromStarting(PayloadEntry & entry);
     void NextFromValueRead(PayloadEntry & entry);
     void NextFromContentRead(PayloadEntry & entry);

     /// Enter the container in mReader.
     ///
     /// May change entry/state in case of errors.
     ///
     /// Returns false on error (and entry is changed in that case)
     bool ReaderEnterContainer(PayloadEntry & entry);

     /// Returns a "nesting enter" value, making sure that
     /// nesting depth is sufficient.
     void EnterContainer(PayloadEntry & entry);

     /// Returns a "nesting exit" value, making sure that
     /// nesting depth is sufficient.
     void ExitContainer(PayloadEntry & entry);

     const chip::Protocols::Id mProtocol;
     const uint8_t mMessageType;

     StringBuilderBase & mNameBuilder;
     StringBuilderBase & mValueBuilder;

     State mState = State::kStarting;
     TLV::TLVReader mReader;
     DecodePosition mPayloadPosition;
     DecodePosition mIMContentPosition;
     TLV::TLVType mNestingEnters[kMaxDecodeDepth];
     size_t mCurrentNesting = 0;

     /// incremental state for parsing of paths
     uint32_t mClusterId   = 0;
     uint32_t mAttributeId = 0;
     uint32_t mEventId     = 0;
     uint32_t mCommandId   = 0;
 };

 template <size_t kNameBufferSize, size_t kValueBufferSize>
 class PayloadDecoder : public PayloadDecoderBase
 {
 public:
     PayloadDecoder(const PayloadDecoderInitParams & params) : PayloadDecoderBase(std::move(params), mName, mValue) {}

 private:
     chip::StringBuilder<kNameBufferSize> mName;
     chip::StringBuilder<kValueBufferSize> mValue;
 };

 } // namespace Decoders
 } // namespace chip
	/*
	*
	* Copyright (c) 2023 Project CHIP Authors
	* All rights reserved.
	*
	* 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
	*
	* http://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.
	*/
	#pragma once

	#include <lib/core/TLVReader.h>
	#include <lib/format/FlatTreePosition.h>
	#include <lib/format/tlv_meta.h>
	#include <lib/support/StringBuilder.h>
	#include <protocols/Protocols.h>

	namespace chip {
	namespace Decoders {

	/// Represents an individual decoded entry for IM Payloads
	/// Generally a name + value + metadata tuple, where name and value are never NULL.
	class PayloadEntry
	{
	public:
	static constexpr uint32_t kInvalidId = 0xFFFFFFFF;
	enum class IMPayloadType
	{
	kNone = 0, // generally should not be used except initial init
	kValue, // represents a simple value to output

	kNestingEnter, // Nested struct enter. Has name, empty value
	kNestingExit, // Nested struct exit (has no name/value)

	// Content payloads
	kAttribute,
	kCommand,
	kEvent,
	};
	PayloadEntry(const PayloadEntry &) = default;
	PayloadEntry & operator=(const PayloadEntry &) = default;

	PayloadEntry() : mType(IMPayloadType::kNone), mName(""), mValue("") {}

	IMPayloadType GetType() const { return mType; }

	const char * GetName() const { return mName; }
	const char * GetValueText() const { return mValue; }

	/// valid only if payload is an IM Payload
	uint32_t GetClusterId() const { return mClusterId; };

	/// valid only if payload as an Attribute ID
	uint32_t GetAttributeId() const
	{
	VerifyOrReturnValue(mType == IMPayloadType::kAttribute, kInvalidId);
	return mSubId;
	}

	/// valid only if payload as a Command ID
	uint32_t GetCommandId() const
	{
	VerifyOrReturnValue(mType == IMPayloadType::kCommand, kInvalidId);
	return mSubId;
	}

	/// valid only if payload as a Command ID
	uint32_t GetEventId() const
	{
	VerifyOrReturnValue(mType == IMPayloadType::kEvent, kInvalidId);
	return mSubId;
	}

	static PayloadEntry SimpleValue(const char * name, const char * value)
	{
	return PayloadEntry(IMPayloadType::kValue, name, value);
	}

	static PayloadEntry NestingEnter(const char * name) { return PayloadEntry(IMPayloadType::kNestingEnter, name, ""); }

	static PayloadEntry NestingExit() { return PayloadEntry(IMPayloadType::kNestingExit, "", ""); }

	static PayloadEntry AttributePayload(uint32_t cluster_id, uint32_t attribute_id)
	{
	PayloadEntry result(IMPayloadType::kAttribute, "ATTR_DATA", "");
	result.mClusterId = cluster_id;
	result.mSubId = attribute_id;

	return result;
	}

	static PayloadEntry CommandPayload(uint32_t cluster_id, uint32_t command_id)
	{
	PayloadEntry result(IMPayloadType::kCommand, "COMMAND_DATA", "");
	result.mClusterId = cluster_id;
	result.mSubId = command_id;
	return result;
	}

	static PayloadEntry EventPayload(uint32_t cluster_id, uint32_t event_id)
	{
	PayloadEntry result(IMPayloadType::kEvent, "EVENT_DATA", "");
	result.mClusterId = cluster_id;
	result.mSubId = event_id;
	return result;
	}

	private:
	PayloadEntry(IMPayloadType type, const char * name, const char * value) : mType(type), mName(name), mValue(value) {}

	IMPayloadType mType = IMPayloadType::kValue;
	const char * mName = nullptr;
	const char * mValue = nullptr;

	uint32_t mClusterId = 0;
	uint32_t mSubId = 0; // attribute, command or event id
	};

	/// Sets up decoding of some Matter data payload
	class PayloadDecoderInitParams
	{
	public:
	using DecodeTree = const FlatTree::Node<chip::TLVMeta::ItemInfo> *;
	PayloadDecoderInitParams() = default;

	PayloadDecoderInitParams & SetProtocol(Protocols::Id value)
	{
	mProtocol = value;
	return *this;
	}

	PayloadDecoderInitParams & SetMessageType(uint8_t value)
	{
	mMessageType = value;
	return *this;
	}

	PayloadDecoderInitParams & SetProtocolDecodeTree(DecodeTree tree, size_t s)
	{
	mProtocolTree = tree;
	mProtocolTreeSize = s;
	return *this;
	}

	template <size_t N>
	PayloadDecoderInitParams & SetProtocolDecodeTree(const std::array<const FlatTree::Node<chip::TLVMeta::ItemInfo>, N> & a)
	{
	return SetProtocolDecodeTree(a.data(), N);
	}

	PayloadDecoderInitParams & SetClusterDecodeTree(DecodeTree tree, size_t s)
	{
	mClusterTree = tree;
	mClusterTreeSize = s;
	return *this;
	}

	template <size_t N>
	PayloadDecoderInitParams & SetClusterDecodeTree(const std::array<const FlatTree::Node<chip::TLVMeta::ItemInfo>, N> & a)
	{
	return SetClusterDecodeTree(a.data(), N);
	}

	DecodeTree GetProtocolDecodeTree() const { return mProtocolTree; }
	size_t GetProtocolDecodeTreeSize() const { return mProtocolTreeSize; }
	DecodeTree GetClusterDecodeTree() const { return mClusterTree; }
	size_t GetClusterDecodeTreeSize() const { return mClusterTreeSize; }

	Protocols::Id GetProtocol() const { return mProtocol; }
	uint8_t GetMessageType() const { return mMessageType; }

	private:
	DecodeTree mProtocolTree = nullptr;
	size_t mProtocolTreeSize = 0;

	DecodeTree mClusterTree = nullptr;
	size_t mClusterTreeSize = 0;

	Protocols::Id mProtocol = Protocols::NotSpecified;
	uint8_t mMessageType = 0;
	};

	class PayloadDecoderBase
	{
	public:
	static constexpr size_t kMaxDecodeDepth = 16;
	using DecodePosition = chip::FlatTree::Position<chip::TLVMeta::ItemInfo, kMaxDecodeDepth>;

	PayloadDecoderBase(const PayloadDecoderInitParams & params, StringBuilderBase & nameBuilder, StringBuilderBase & valueBuilder);

	/// Initialize decoding from the given reader
	/// Will create a copy of the reader, however the copy will contain
	/// pointers in the original reader (so data must stay valid while Next is called)
	void StartDecoding(const TLV::TLVReader & reader);

	void StartDecoding(chip::ByteSpan data)
	{
	TLV::TLVReader reader;
	reader.Init(data);
	StartDecoding(reader);
	}

	/// Get the next decoded entry from the underlying TLV
	///
	/// If a cluster decoder is set, then kAttribute/kCommand/kEvent are ALWAYS decoded
	/// (even if unknown tags), otherwise they will be returned as separate PayloadEntry values.
	///
	/// Returns false when decoding finished.
	bool Next(PayloadEntry & entry);

	const TLV::TLVReader & ReadState() const { return mReader; }

	private:
	enum class State
	{
	kStarting,
	kValueRead, // reading value for Payload
	kContentRead, // reading value for IMContent (i.e. decoded attr/cmd/event)
	kDone,
	};

	/// Move to the given attribute/event/command entry.
	///
	/// [entry] MUST be of type command/attribute/event.
	///
	/// This call either moves to "ContentDecoding mode" if content tree is available
	/// or leaves entry unchanged if content decoding tree is not available.
	void MoveToContent(PayloadEntry & entry);

	void NextFromStarting(PayloadEntry & entry);
	void NextFromValueRead(PayloadEntry & entry);
	void NextFromContentRead(PayloadEntry & entry);

	/// Enter the container in mReader.
	///
	/// May change entry/state in case of errors.
	///
	/// Returns false on error (and entry is changed in that case)
	bool ReaderEnterContainer(PayloadEntry & entry);

	/// Returns a "nesting enter" value, making sure that
	/// nesting depth is sufficient.
	void EnterContainer(PayloadEntry & entry);

	/// Returns a "nesting exit" value, making sure that
	/// nesting depth is sufficient.
	void ExitContainer(PayloadEntry & entry);

	const chip::Protocols::Id mProtocol;
	const uint8_t mMessageType;

	StringBuilderBase & mNameBuilder;
	StringBuilderBase & mValueBuilder;

	State mState = State::kStarting;
	TLV::TLVReader mReader;
	DecodePosition mPayloadPosition;
	DecodePosition mIMContentPosition;
	TLV::TLVType mNestingEnters[kMaxDecodeDepth];
	size_t mCurrentNesting = 0;

	/// incremental state for parsing of paths
	uint32_t mClusterId = 0;
	uint32_t mAttributeId = 0;
	uint32_t mEventId = 0;
	uint32_t mCommandId = 0;
	};

	template <size_t kNameBufferSize, size_t kValueBufferSize>
	class PayloadDecoder : public PayloadDecoderBase
	{
	public:
	PayloadDecoder(const PayloadDecoderInitParams & params) : PayloadDecoderBase(std::move(params), mName, mValue) {}

	private:
	chip::StringBuilder<kNameBufferSize> mName;
	chip::StringBuilder<kValueBufferSize> mValue;
	};

	} // namespace Decoders
	} // namespace chip