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/*
*
* Copyright (c) 2020-2021 Project CHIP 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
*
* 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.
*/
/**
* @file
* This file defines CHIP binary header encode/decode.
*/
#pragma once
#include <cstddef>
#include <cstdint>
#include <string.h>
#include <type_traits>
#include <crypto/CHIPCryptoPAL.h>
#include <lib/core/CHIPError.h>
#include <lib/core/GroupId.h>
#include <lib/core/Optional.h>
#include <lib/core/PeerId.h>
#include <lib/support/BitFlags.h>
#include <lib/support/BufferReader.h>
#include <lib/support/CodeUtils.h>
#include <lib/support/TypeTraits.h>
#include <protocols/Protocols.h>
#include <system/SystemPacketBuffer.h>
namespace chip {
namespace detail {
// Figure out the max size of a packet we can allocate, including all headers.
static constexpr size_t kMaxIPPacketSizeBytes = 1280;
static constexpr size_t kMaxUDPAndIPHeaderSizeBytes = 48;
static_assert(kMaxIPPacketSizeBytes >= kMaxUDPAndIPHeaderSizeBytes + CHIP_SYSTEM_HEADER_RESERVE_SIZE,
"Matter headers and IP headers must fit in an MTU.");
// Max space we have for our Application Payload and MIC, per spec.
static constexpr size_t kMaxPerSpecApplicationPayloadAndMICSizeBytes =
kMaxIPPacketSizeBytes - kMaxUDPAndIPHeaderSizeBytes - CHIP_SYSTEM_HEADER_RESERVE_SIZE;
// Max space we have for our Application Payload and MIC in our actual packet
// buffers. This is the size _excluding_ the header reserve.
static constexpr size_t kMaxPacketBufferApplicationPayloadAndMICSizeBytes = System::PacketBuffer::kMaxSize;
static constexpr size_t kMaxApplicationPayloadAndMICSizeBytes =
min(kMaxPerSpecApplicationPayloadAndMICSizeBytes, kMaxPacketBufferApplicationPayloadAndMICSizeBytes);
} // namespace detail
static constexpr size_t kMaxTagLen = 16;
static_assert(detail::kMaxApplicationPayloadAndMICSizeBytes > kMaxTagLen, "Need to be able to fit our tag in a message");
// This is somewhat of an under-estimate, because in practice any time we have a
// tag we will not have source/destination node IDs, but above we are including
// those in the header sizes.
static constexpr size_t kMaxAppMessageLen = detail::kMaxApplicationPayloadAndMICSizeBytes - kMaxTagLen;
static constexpr uint16_t kMsgUnicastSessionIdUnsecured = 0x0000;
typedef int PacketHeaderFlags;
namespace Header {
enum class SessionType : uint8_t
{
kUnicastSession = 0,
kGroupSession = 1,
};
/**
* @brief
* The CHIP Exchange header flag bits.
*/
enum class ExFlagValues : uint8_t
{
/// Set when current message is sent by the initiator of an exchange.
kExchangeFlag_Initiator = 0x01,
/// Set when current message is an acknowledgment for a previously received message.
kExchangeFlag_AckMsg = 0x02,
/// Set when current message is requesting an acknowledgment from the recipient.
kExchangeFlag_NeedsAck = 0x04,
/// Secured Extension block is present.
kExchangeFlag_SecuredExtension = 0x08,
/// Set when a vendor id is prepended to the Message Protocol Id field.
kExchangeFlag_VendorIdPresent = 0x10,
};
// Message flags 8-bit value of the form
// | 4 bits | 1 | 1 | 2 bits |
// +---------+-------+--------|
// | version | - | S | DSIZ
// | |
// | +---------------- Destination Id field
// +-------------------- Source node Id present
enum class MsgFlagValues : uint8_t
{
/// Header flag specifying that a source node id is included in the header.
kSourceNodeIdPresent = 0b00000100,
kDestinationNodeIdPresent = 0b00000001,
kDestinationGroupIdPresent = 0b00000010,
kDSIZReserved = 0b00000011,
};
// Security flags 8-bit value of the form
// | 1 | 1 | 1 | 3 | 2 bits |
// +------------+---+--------|
// | P | C | MX | - | SessionType
//
// With :
// P = Privacy flag
// C = Control Msg flag
// MX = Message Extension
enum class SecFlagValues : uint8_t
{
kPrivacyFlag = 0b10000000,
kControlMsgFlag = 0b01000000,
kMsgExtensionFlag = 0b00100000,
};
enum SecFlagMask
{
kSessionTypeMask = 0b00000011, ///< Mask to extract sessionType
};
using MsgFlags = BitFlags<MsgFlagValues>;
using SecFlags = BitFlags<SecFlagValues>;
using ExFlags = BitFlags<ExFlagValues>;
} // namespace Header
/**
* Handles encoding/decoding of CHIP packet message headers.
*
* Packet headers are **UNENCRYPTED** and are placed at the start of
* a message buffer.
*/
class PacketHeader
{
public:
enum
{
kHeaderMinLength = 8,
kPrivacyHeaderMinLength = 4,
kPrivacyHeaderOffset = 4,
};
/**
* Gets the message counter set in the header.
*
* Message IDs are expecte to monotonically increase by one for each mesage
* that has been sent.
*/
uint32_t GetMessageCounter() const { return mMessageCounter; }
/**
* Gets the source node id in the current message.
*
* NOTE: the source node id is optional and may be missing.
*/
const Optional<NodeId> & GetSourceNodeId() const { return mSourceNodeId; }
/**
* Gets the destination node id in the current message.
*
* NOTE: the destination node id is optional and may be missing.
*/
const Optional<NodeId> & GetDestinationNodeId() const { return mDestinationNodeId; }
/**
* Gets the destination group id in the current message.
*
* NOTE: the destination group id is optional and may be missing.
*/
const Optional<GroupId> & GetDestinationGroupId() const { return mDestinationGroupId; }
uint16_t GetSessionId() const { return mSessionId; }
Header::SessionType GetSessionType() const { return mSessionType; }
uint8_t GetMessageFlags() const { return mMsgFlags.Raw(); }
uint8_t GetSecurityFlags() const { return mSecFlags.Raw(); }
bool HasPrivacyFlag() const { return mSecFlags.Has(Header::SecFlagValues::kPrivacyFlag); }
bool HasSourceNodeId() const { return mMsgFlags.Has(Header::MsgFlagValues::kSourceNodeIdPresent); }
bool HasDestinationNodeId() const { return mMsgFlags.Has(Header::MsgFlagValues::kDestinationNodeIdPresent); }
bool HasDestinationGroupId() const { return mMsgFlags.Has(Header::MsgFlagValues::kDestinationGroupIdPresent); }
void SetFlags(Header::SecFlagValues value) { mSecFlags.Set(value); }
void SetFlags(Header::MsgFlagValues value) { mMsgFlags.Set(value); }
void SetMessageFlags(uint8_t flags) { mMsgFlags.SetRaw(flags); }
void SetSecurityFlags(uint8_t securityFlags)
{
mSecFlags.SetRaw(securityFlags);
mSessionType = static_cast<Header::SessionType>(securityFlags & Header::SecFlagMask::kSessionTypeMask);
}
bool IsGroupSession() const { return mSessionType == Header::SessionType::kGroupSession; }
bool IsUnicastSession() const { return mSessionType == Header::SessionType::kUnicastSession; }
bool IsSessionTypeValid() const
{
switch (mSessionType)
{
case Header::SessionType::kUnicastSession:
return true;
case Header::SessionType::kGroupSession:
return true;
default:
return false;
}
}
bool IsValidGroupMsg() const
{
// Check is based on spec 4.11.2
return (IsGroupSession() && HasSourceNodeId() && HasDestinationGroupId() && !IsSecureSessionControlMsg());
}
bool IsValidMCSPMsg() const
{
// Check is based on spec 4.9.2.4
return (IsGroupSession() && HasSourceNodeId() && HasDestinationNodeId() && IsSecureSessionControlMsg());
}
bool IsEncrypted() const { return !((mSessionId == kMsgUnicastSessionIdUnsecured) && IsUnicastSession()); }
uint16_t MICTagLength() const { return (IsEncrypted()) ? chip::Crypto::CHIP_CRYPTO_AEAD_MIC_LENGTH_BYTES : 0; }
/** Check if it's a secure session control message. */
bool IsSecureSessionControlMsg() const { return mSecFlags.Has(Header::SecFlagValues::kControlMsgFlag); }
PacketHeader & SetSecureSessionControlMsg(bool value)
{
mSecFlags.Set(Header::SecFlagValues::kControlMsgFlag, value);
return *this;
}
PacketHeader & SetSourceNodeId(NodeId id)
{
mSourceNodeId.SetValue(id);
mMsgFlags.Set(Header::MsgFlagValues::kSourceNodeIdPresent);
return *this;
}
PacketHeader & SetSourceNodeId(Optional<NodeId> id)
{
mSourceNodeId = id;
mMsgFlags.Set(Header::MsgFlagValues::kSourceNodeIdPresent, id.HasValue());
return *this;
}
PacketHeader & ClearSourceNodeId()
{
mSourceNodeId.ClearValue();
mMsgFlags.Clear(Header::MsgFlagValues::kSourceNodeIdPresent);
return *this;
}
PacketHeader & SetDestinationNodeId(NodeId id)
{
mDestinationNodeId.SetValue(id);
mMsgFlags.Set(Header::MsgFlagValues::kDestinationNodeIdPresent);
return *this;
}
PacketHeader & SetDestinationNodeId(Optional<NodeId> id)
{
mDestinationNodeId = id;
mMsgFlags.Set(Header::MsgFlagValues::kDestinationNodeIdPresent, id.HasValue());
return *this;
}
PacketHeader & ClearDestinationNodeId()
{
mDestinationNodeId.ClearValue();
mMsgFlags.Clear(Header::MsgFlagValues::kDestinationNodeIdPresent);
return *this;
}
PacketHeader & SetDestinationGroupId(GroupId id)
{
mDestinationGroupId.SetValue(id);
mMsgFlags.Set(Header::MsgFlagValues::kDestinationGroupIdPresent);
return *this;
}
PacketHeader & SetDestinationGroupId(Optional<GroupId> id)
{
mDestinationGroupId = id;
mMsgFlags.Set(Header::MsgFlagValues::kDestinationGroupIdPresent, id.HasValue());
return *this;
}
PacketHeader & ClearDestinationGroupId()
{
mDestinationGroupId.ClearValue();
mMsgFlags.Clear(Header::MsgFlagValues::kDestinationGroupIdPresent);
return *this;
}
PacketHeader & SetSessionType(Header::SessionType type)
{
mSessionType = type;
uint8_t typeMask = to_underlying(Header::kSessionTypeMask);
mSecFlags.SetRaw(static_cast<uint8_t>((mSecFlags.Raw() & ~typeMask) | (to_underlying(type) & typeMask)));
return *this;
}
PacketHeader & SetSessionId(uint16_t id)
{
mSessionId = id;
return *this;
}
PacketHeader & SetMessageCounter(uint32_t id)
{
mMessageCounter = id;
return *this;
}
PacketHeader & SetUnsecured()
{
mSessionId = kMsgUnicastSessionIdUnsecured;
mSessionType = Header::SessionType::kUnicastSession;
return *this;
}
/**
* Returns a pointer to the start of the privacy header
* given a pointer to the start of the message.
*/
uint8_t * PrivacyHeader(uint8_t * msgBuf) const { return msgBuf + PacketHeader::kPrivacyHeaderOffset; }
size_t PrivacyHeaderLength() const
{
size_t length = kPrivacyHeaderMinLength;
if (mMsgFlags.Has(Header::MsgFlagValues::kSourceNodeIdPresent))
{
length += sizeof(NodeId);
}
if (mMsgFlags.Has(Header::MsgFlagValues::kDestinationNodeIdPresent))
{
length += sizeof(NodeId);
}
else if (mMsgFlags.Has(Header::MsgFlagValues::kDestinationGroupIdPresent))
{
length += sizeof(GroupId);
}
return length;
}
size_t PayloadOffset() const
{
size_t offset = kPrivacyHeaderMinLength;
offset += PrivacyHeaderLength();
return offset;
}
/**
* A call to `Encode` will require at least this many bytes on the current
* object to be successful.
*
* @return the number of bytes needed in a buffer to be able to Encode.
*/
uint16_t EncodeSizeBytes() const;
/**
* Decodes the fixed portion of the header fields from the given buffer.
* The fixed header includes: message flags, session id, and security flags.
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
* CHIP_ERROR_VERSION_MISMATCH if header version is not supported.
*/
CHIP_ERROR DecodeFixed(const System::PacketBufferHandle & buf);
/**
* Decodes a header from the given buffer.
*
* @param data - the buffer to read from
* @param size - bytes available in the buffer
* @param decode_size - number of bytes read from the buffer to decode the
* object
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
* CHIP_ERROR_VERSION_MISMATCH if header version is not supported.
*/
CHIP_ERROR Decode(const uint8_t * data, uint16_t size, uint16_t * decode_size);
/**
* A version of Decode that uses the type system to determine available
* space.
*/
template <uint16_t N>
inline CHIP_ERROR Decode(const uint8_t (&data)[N], uint16_t * decode_size)
{
return Decode(data, N, decode_size);
}
/**
* A version of Decode that decodes from the start of a PacketBuffer and
* consumes the bytes we decoded from.
*/
CHIP_ERROR DecodeAndConsume(const System::PacketBufferHandle & buf);
/**
* Encodes a header into the given buffer.
*
* @param data - the buffer to write to
* @param size - space available in the buffer (in bytes)
* @param encode_size - number of bytes written to the buffer.
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
*/
CHIP_ERROR Encode(uint8_t * data, uint16_t size, uint16_t * encode_size) const;
/**
* A version of Encode that uses the type system to determine available
* space.
*/
template <int N>
inline CHIP_ERROR Encode(uint8_t (&data)[N], uint16_t * encode_size) const
{
return Encode(data, N, encode_size);
}
/**
* A version of Encode that encodes into a PacketBuffer before the
* PacketBuffer's current data.
*/
CHIP_ERROR EncodeBeforeData(const System::PacketBufferHandle & buf) const;
/**
* A version of Encode that encodes into a PacketBuffer at the start of the
* current data space. This assumes that someone has already preallocated
* space for the header.
*/
inline CHIP_ERROR EncodeAtStart(const System::PacketBufferHandle & buf, uint16_t * encode_size) const
{
return Encode(buf->Start(), buf->DataLength(), encode_size);
}
private:
/**
* Decodes the fixed portion of the header fields from the stream reader.
* The fixed header includes: message flags, session id, and security flags.
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
* CHIP_ERROR_VERSION_MISMATCH if header version is not supported.
*/
CHIP_ERROR DecodeFixedCommon(Encoding::LittleEndian::Reader & reader);
/// Represents the current encode/decode header version (4 bits)
static constexpr uint8_t kMsgHeaderVersion = 0x00;
/// Value expected to be incremented for each message sent.
uint32_t mMessageCounter = 0;
/// What node the message originated from
Optional<NodeId> mSourceNodeId;
/// Intended recipient of the message.
Optional<NodeId> mDestinationNodeId;
Optional<GroupId> mDestinationGroupId;
/// Session ID
uint16_t mSessionId = kMsgUnicastSessionIdUnsecured;
Header::SessionType mSessionType = Header::SessionType::kUnicastSession;
/// Flags read from the message.
Header::MsgFlags mMsgFlags;
Header::SecFlags mSecFlags;
};
/**
* Handles encoding/decoding of CHIP payload headers.
*
* Payload headers are **ENCRYPTED** and are placed at the start of
* an encrypted message payload.
*/
class PayloadHeader
{
public:
constexpr PayloadHeader() { SetProtocol(Protocols::NotSpecified); }
constexpr PayloadHeader(const PayloadHeader &) = default;
PayloadHeader & operator=(const PayloadHeader &) = default;
/** Get the Session ID from this header. */
uint16_t GetExchangeID() const { return mExchangeID; }
/** Get the Protocol ID from this header. */
Protocols::Id GetProtocolID() const { return mProtocolID; }
/** Check whether the header has a given protocol */
bool HasProtocol(Protocols::Id protocol) const { return mProtocolID == protocol; }
/** Get the secure msg type from this header. */
uint8_t GetMessageType() const { return mMessageType; }
/** Get the raw exchange flags from this header. */
uint8_t GetExchangeFlags() const { return mExchangeFlags.Raw(); }
/** Check whether the header has a given secure message type */
bool HasMessageType(uint8_t type) const { return mMessageType == type; }
template <typename MessageType, typename = std::enable_if_t<std::is_enum<MessageType>::value>>
bool HasMessageType(MessageType type) const
{
return HasProtocol(Protocols::MessageTypeTraits<MessageType>::ProtocolId()) && HasMessageType(to_underlying(type));
}
/**
* Gets the Acknowledged Message Counter from this header.
*
* NOTE: the Acknowledged Message Counter is optional and may be missing.
*/
const Optional<uint32_t> & GetAckMessageCounter() const { return mAckMessageCounter; }
/**
* Set the message type for this header. This requires setting the protocol
* id as well, because the meaning of a message type is only relevant given
* a specific protocol.
*
* This should only be used for cases when we don't have a strongly typed
* message type and hence can't automatically determine the protocol from
* the message type.
*/
PayloadHeader & SetMessageType(Protocols::Id protocol, uint8_t type)
{
SetProtocol(protocol);
mMessageType = type;
return *this;
}
/** Set the secure message type, with the protocol id derived from the
message type. */
template <typename MessageType, typename = std::enable_if_t<std::is_enum<MessageType>::value>>
PayloadHeader & SetMessageType(MessageType type)
{
SetMessageType(Protocols::MessageTypeTraits<MessageType>::ProtocolId(), to_underlying(type));
return *this;
}
/** Set the security session ID for this header. */
PayloadHeader & SetExchangeID(uint16_t id)
{
mExchangeID = id;
return *this;
}
/** Set the Initiator flag bit. */
PayloadHeader & SetInitiator(bool inInitiator)
{
mExchangeFlags.Set(Header::ExFlagValues::kExchangeFlag_Initiator, inInitiator);
return *this;
}
PayloadHeader & SetAckMessageCounter(uint32_t id)
{
mAckMessageCounter.SetValue(id);
mExchangeFlags.Set(Header::ExFlagValues::kExchangeFlag_AckMsg);
return *this;
}
/** Set the AckMsg flag bit. */
PayloadHeader & SetAckMessageCounter(Optional<uint32_t> id)
{
mAckMessageCounter = id;
mExchangeFlags.Set(Header::ExFlagValues::kExchangeFlag_AckMsg, id.HasValue());
return *this;
}
/** Set the NeedsAck flag bit. */
PayloadHeader & SetNeedsAck(bool inNeedsAck)
{
mExchangeFlags.Set(Header::ExFlagValues::kExchangeFlag_NeedsAck, inNeedsAck);
return *this;
}
/**
* Determine whether the initiator of the exchange.
*
* @return Returns 'true' if it is the initiator, else 'false'.
*
*/
bool IsInitiator() const { return mExchangeFlags.Has(Header::ExFlagValues::kExchangeFlag_Initiator); }
/**
* Determine whether the current message is an acknowledgment for a previously received message.
*
* @return Returns 'true' if current message is an acknowledgment, else 'false'.
*
*/
bool IsAckMsg() const { return mExchangeFlags.Has(Header::ExFlagValues::kExchangeFlag_AckMsg); }
/**
* Determine whether current message is requesting an acknowledgment from the recipient.
*
* @return Returns 'true' if the current message is requesting an acknowledgment from the recipient, else 'false'.
*
*/
bool NeedsAck() const { return mExchangeFlags.Has(Header::ExFlagValues::kExchangeFlag_NeedsAck); }
/**
* A call to `Encode` will require at least this many bytes on the current
* object to be successful.
*
* @return the number of bytes needed in a buffer to be able to Encode.
*/
uint16_t EncodeSizeBytes() const;
/**
* Decodes the encrypted header fields from the given buffer.
*
* @param data - the buffer to read from
* @param size - bytes available in the buffer
* @param decode_size - number of bytes read from the buffer to decode the
* object
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
* CHIP_ERROR_VERSION_MISMATCH if header version is not supported.
*/
CHIP_ERROR Decode(const uint8_t * data, uint16_t size, uint16_t * decode_size);
/**
* A version of Decode that uses the type system to determine available
* space.
*/
template <uint16_t N>
inline CHIP_ERROR Decode(const uint8_t (&data)[N], uint16_t * decode_size)
{
return Decode(data, N, decode_size);
}
/**
* A version of Decode that decodes from the start of a PacketBuffer and
* consumes the bytes we decoded from.
*/
CHIP_ERROR DecodeAndConsume(const System::PacketBufferHandle & buf);
/**
* Encodes the encrypted part of the header into the given buffer.
*
* @param data - the buffer to write to
* @param size - space available in the buffer (in bytes)
* @param encode_size - number of bytes written to the buffer.
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
*/
CHIP_ERROR Encode(uint8_t * data, uint16_t size, uint16_t * encode_size) const;
/**
* A version of Encode that uses the type system to determine available
* space.
*/
template <uint16_t N>
inline CHIP_ERROR Encode(uint8_t (&data)[N], uint16_t * decode_size) const
{
return Encode(data, N, decode_size);
}
/**
* A version of Encode that encodes into a PacketBuffer before the
* PacketBuffer's current data.
*/
CHIP_ERROR EncodeBeforeData(const System::PacketBufferHandle & buf) const;
/**
* A version of Encode that encodes into a PacketBuffer at the start of the
* current data space. This assumes that someone has already preallocated
* space for the header.
*/
inline CHIP_ERROR EncodeAtStart(const System::PacketBufferHandle & buf, uint16_t * encode_size) const
{
return Encode(buf->Start(), buf->DataLength(), encode_size);
}
private:
constexpr void SetProtocol(Protocols::Id protocol)
{
mExchangeFlags.Set(Header::ExFlagValues::kExchangeFlag_VendorIdPresent, protocol.GetVendorId() != VendorId::Common);
mProtocolID = protocol;
}
constexpr bool HaveVendorId() const { return mExchangeFlags.Has(Header::ExFlagValues::kExchangeFlag_VendorIdPresent); }
/// Packet type (application data, security control packets, e.g. pairing,
/// configuration, rekey etc)
uint8_t mMessageType = 0;
/// Security session identifier
uint16_t mExchangeID = 0;
/// Protocol identifier
Protocols::Id mProtocolID = Protocols::NotSpecified;
/// Bit flag indicators for CHIP Exchange header
Header::ExFlags mExchangeFlags;
/// Message counter of a previous message that is being acknowledged by the current message
Optional<uint32_t> mAckMessageCounter;
};
/** Handles encoding/decoding of CHIP message headers */
class MessageAuthenticationCode
{
public:
const uint8_t * GetTag() const { return &mTag[0]; }
/** Set the message auth tag for this header. */
MessageAuthenticationCode & SetTag(PacketHeader * header, const uint8_t * tag, size_t len)
{
const size_t tagLen = chip::Crypto::CHIP_CRYPTO_AEAD_MIC_LENGTH_BYTES;
if (tagLen > 0 && tagLen <= kMaxTagLen && len == tagLen)
{
memcpy(&mTag, tag, tagLen);
}
return *this;
}
/**
* Decodes the Message Authentication Tag from the given buffer.
*
* @param packetHeader - header containing encryption information
* @param data - the buffer to read from
* @param size - bytes available in the buffer
* @param decode_size - number of bytes read from the buffer to decode the
* object
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
* CHIP_ERROR_VERSION_MISMATCH if header version is not supported.
*/
CHIP_ERROR Decode(const PacketHeader & packetHeader, const uint8_t * data, uint16_t size, uint16_t * decode_size);
/**
* Encodes the Messae Authentication Tag into the given buffer.
*
* @param packetHeader - header containing encryption information
* @param data - the buffer to write to
* @param size - space available in the buffer (in bytes)
* @param encode_size - number of bytes written to the buffer.
*
* @return CHIP_NO_ERROR on success.
*
* Possible failures:
* CHIP_ERROR_INVALID_ARGUMENT on insufficient buffer size
*/
CHIP_ERROR Encode(const PacketHeader & packetHeader, uint8_t * data, uint16_t size, uint16_t * encode_size) const;
private:
/// Message authentication tag generated at encryption of the message.
uint8_t mTag[kMaxTagLen];
};
} // namespace chip