message.hpp - openbmc/phosphor-net-ipmid - Gitiles

 #pragma once

 #include <cstddef>
 #include <memory>
 #include <numeric>
 #include <vector>

 namespace message
 {

 enum class PayloadType : uint8_t
 {
     IPMI = 0x00,
     SOL = 0x01,
     OPEN_SESSION_REQUEST = 0x10,
     OPEN_SESSION_RESPONSE = 0x11,
     RAKP1 = 0x12,
     RAKP2 = 0x13,
     RAKP3 = 0x14,
     RAKP4 = 0x15,
     INVALID = 0xFF,
 };

 // RMCP Classes of Message as per section 13.1.3.
 enum class ClassOfMsg : uint8_t
 {
     RESERVED = 0x05,
     ASF = 0x06,
     IPMI = 0x07,
     OEM = 0x08,
 };

 #ifdef RMCP_PING
 // RMCP Message Type as per section 13.1.3.
 enum class RmcpMsgType : uint8_t
 {
     PING = 0x80,
     PONG = 0x40,
 };
 #endif // RMCP_PING

 namespace LAN
 {

 constexpr uint8_t requesterBMCAddress = 0x20;
 constexpr uint8_t responderBMCAddress = 0x81;

 namespace header
 {

 /**
  * @struct IPMI LAN Message Request Header
  */
 struct Request
 {
     uint8_t rsaddr;
     uint8_t netfn;
     uint8_t cs;
     uint8_t rqaddr;
     uint8_t rqseq;
     uint8_t cmd;
 } __attribute__((packed));

 /**
  * @struct IPMI LAN Message Response Header
  */
 struct Response
 {
     uint8_t rqaddr;
     uint8_t netfn;
     uint8_t cs;
     uint8_t rsaddr;
     uint8_t rqseq;
     uint8_t cmd;
 } __attribute__((packed));

 } // namespace header

 namespace trailer
 {

 /**
  * @struct IPMI LAN Message Trailer
  */
 struct Request
 {
     uint8_t checksum;
 } __attribute__((packed));

 using Response = Request;

 } // namespace trailer

 } // namespace LAN

 /**
  * @brief Calculate 8 bit 2's complement checksum
  *
  * Initialize checksum to 0. For each byte, checksum = (checksum + byte)
  * modulo 256. Then checksum = - checksum. When the checksum and the
  * bytes are added together, modulo 256, the result should be 0.
  */
 static inline uint8_t crc8bit(const uint8_t* ptr, const size_t len)
 {
     return (0x100 - std::accumulate(ptr, ptr + len, 0));
 }

 /**
  * @struct Message
  *
  * IPMI message is data encapsulated in an IPMI Session packet. The IPMI
  * Session packets are encapsulated in RMCP packets, which are encapsulated in
  * UDP datagrams. Refer Section 13.5 of IPMI specification(IPMI Messages
  * Encapsulation Under RMCP). IPMI payload is a special class of data
  * encapsulated in an IPMI session packet.
  */
 struct Message
 {
     static constexpr uint32_t MESSAGE_INVALID_SESSION_ID = 0xBADBADFF;

     Message() :
         payloadType(PayloadType::INVALID),
         rcSessionID(Message::MESSAGE_INVALID_SESSION_ID),
         bmcSessionID(Message::MESSAGE_INVALID_SESSION_ID),
         rmcpMsgClass(ClassOfMsg::RESERVED)
     {}

     /**
      * @brief Special behavior for copy constructor
      *
      * Based on incoming message state, the resulting message will have a
      * pre-baked state. This is used to simplify the flows for creating a
      * response message. For each pre-session state, the response message is
      * actually a different type of message. Once the session has been
      * established, the response type is the same as the request type.
      */
     Message(const Message& other) :
         isPacketEncrypted(other.isPacketEncrypted),
         isPacketAuthenticated(other.isPacketAuthenticated),
         payloadType(other.payloadType), rcSessionID(other.rcSessionID),
         bmcSessionID(other.bmcSessionID), rmcpMsgClass(other.rmcpMsgClass)
     {
         // special behavior for rmcp+ session creation
         if (PayloadType::OPEN_SESSION_REQUEST == other.payloadType)
         {
             payloadType = PayloadType::OPEN_SESSION_RESPONSE;
         }
         else if (PayloadType::RAKP1 == other.payloadType)
         {
             payloadType = PayloadType::RAKP2;
         }
         else if (PayloadType::RAKP3 == other.payloadType)
         {
             payloadType = PayloadType::RAKP4;
         }
     }
     Message& operator=(const Message&) = default;
     Message(Message&&) = default;
     Message& operator=(Message&&) = default;
     ~Message() = default;

     /**
      * @brief Extract the command from the IPMI payload
      *
      * @return Command ID in the incoming message
      */
     uint32_t getCommand()
     {
         uint32_t command = 0;

         command |= (static_cast<uint32_t>(payloadType) << 16);
         if (payloadType == PayloadType::IPMI)
         {
             auto request =
                 reinterpret_cast<LAN::header::Request*>(payload.data());
             command |= request->netfn << 8;
             command |= static_cast<uint32_t>(request->cmd);
         }
         return command;
     }

     /**
      * @brief Create the response IPMI message
      *
      * The IPMI outgoing message is constructed out of payload and the
      * corresponding fields are populated. For the payload type IPMI, the
      * LAN message header and trailer are added.
      *
      * @param[in] output - Payload for outgoing message
      *
      * @return Outgoing message on success and nullptr on failure
      */
     std::shared_ptr<Message> createResponse(std::vector<uint8_t>& output)
     {
         // SOL packets don't reply; return NULL
         if (payloadType == PayloadType::SOL)
         {
             return nullptr;
         }
         auto outMessage = std::make_shared<Message>(*this);

         if (payloadType == PayloadType::IPMI)
         {
             outMessage->payloadType = PayloadType::IPMI;

             outMessage->payload.resize(sizeof(LAN::header::Response) +
                                        output.size() +
                                        sizeof(LAN::trailer::Response));

             auto reqHeader =
                 reinterpret_cast<LAN::header::Request*>(payload.data());
             auto respHeader = reinterpret_cast<LAN::header::Response*>(
                 outMessage->payload.data());

             // Add IPMI LAN Message Response Header
             respHeader->rqaddr = reqHeader->rqaddr;
             respHeader->netfn = reqHeader->netfn | 0x04;
             respHeader->cs = crc8bit(&(respHeader->rqaddr), 2);
             respHeader->rsaddr = reqHeader->rsaddr;
             respHeader->rqseq = reqHeader->rqseq;
             respHeader->cmd = reqHeader->cmd;

             auto assembledSize = sizeof(LAN::header::Response);

             // Copy the output by the execution of the command
             std::copy(output.begin(), output.end(),
                       outMessage->payload.begin() + assembledSize);
             assembledSize += output.size();

             // Add the IPMI LAN Message Trailer
             auto trailer = reinterpret_cast<LAN::trailer::Response*>(
                 outMessage->payload.data() + assembledSize);
             trailer->checksum = crc8bit(&respHeader->rsaddr, assembledSize - 3);
         }
         else
         {
             outMessage->payload = output;
         }
         return outMessage;
     }

     bool isPacketEncrypted;     // Message's Encryption Status
     bool isPacketAuthenticated; // Message's Authentication Status
     PayloadType payloadType;    // Type of message payload (IPMI,SOL ..etc)
     uint32_t rcSessionID;       // Remote Client's Session ID
     uint32_t bmcSessionID;      // BMC's session ID
     uint32_t sessionSeqNum;     // Session Sequence Number
     ClassOfMsg rmcpMsgClass;    // Class of Message
 #ifdef RMCP_PING
     uint8_t asfMsgTag;          // ASF Message Tag
 #endif                          // RMCP_PING

     /** @brief Message payload
      *
      *  “Payloads” are a capability specified for RMCP+ that enable an IPMI
      *  session to carry types of traffic that are in addition to IPMI Messages.
      *  Payloads can be ‘standard’ or ‘OEM’.Standard payload types include IPMI
      *  Messages, messages for session setup under RMCP+, and the payload for
      *  the “Serial Over LAN” capability introduced in IPMI v2.0.
      */
     std::vector<uint8_t> payload;
 };

 } // namespace message
	#pragma once

	#include <cstddef>
	#include <memory>
	#include <numeric>
	#include <vector>

	namespace message
	{

	enum class PayloadType : uint8_t
	{
	IPMI = 0x00,
	SOL = 0x01,
	OPEN_SESSION_REQUEST = 0x10,
	OPEN_SESSION_RESPONSE = 0x11,
	RAKP1 = 0x12,
	RAKP2 = 0x13,
	RAKP3 = 0x14,
	RAKP4 = 0x15,
	INVALID = 0xFF,
	};

	// RMCP Classes of Message as per section 13.1.3.
	enum class ClassOfMsg : uint8_t
	{
	RESERVED = 0x05,
	ASF = 0x06,
	IPMI = 0x07,
	OEM = 0x08,
	};

	#ifdef RMCP_PING
	// RMCP Message Type as per section 13.1.3.
	enum class RmcpMsgType : uint8_t
	{
	PING = 0x80,
	PONG = 0x40,
	};
	#endif // RMCP_PING

	namespace LAN
	{

	constexpr uint8_t requesterBMCAddress = 0x20;
	constexpr uint8_t responderBMCAddress = 0x81;

	namespace header
	{

	/**
	* @struct IPMI LAN Message Request Header
	*/
	struct Request
	{
	uint8_t rsaddr;
	uint8_t netfn;
	uint8_t cs;
	uint8_t rqaddr;
	uint8_t rqseq;
	uint8_t cmd;
	} __attribute__((packed));

	/**
	* @struct IPMI LAN Message Response Header
	*/
	struct Response
	{
	uint8_t rqaddr;
	uint8_t netfn;
	uint8_t cs;
	uint8_t rsaddr;
	uint8_t rqseq;
	uint8_t cmd;
	} __attribute__((packed));

	} // namespace header

	namespace trailer
	{

	/**
	* @struct IPMI LAN Message Trailer
	*/
	struct Request
	{
	uint8_t checksum;
	} __attribute__((packed));

	using Response = Request;

	} // namespace trailer

	} // namespace LAN

	/**
	* @brief Calculate 8 bit 2's complement checksum
	*
	* Initialize checksum to 0. For each byte, checksum = (checksum + byte)
	* modulo 256. Then checksum = - checksum. When the checksum and the
	* bytes are added together, modulo 256, the result should be 0.
	*/
	static inline uint8_t crc8bit(const uint8_t* ptr, const size_t len)
	{
	return (0x100 - std::accumulate(ptr, ptr + len, 0));
	}

	/**
	* @struct Message
	*
	* IPMI message is data encapsulated in an IPMI Session packet. The IPMI
	* Session packets are encapsulated in RMCP packets, which are encapsulated in
	* UDP datagrams. Refer Section 13.5 of IPMI specification(IPMI Messages
	* Encapsulation Under RMCP). IPMI payload is a special class of data
	* encapsulated in an IPMI session packet.
	*/
	struct Message
	{
	static constexpr uint32_t MESSAGE_INVALID_SESSION_ID = 0xBADBADFF;

	Message() :
	payloadType(PayloadType::INVALID),
	rcSessionID(Message::MESSAGE_INVALID_SESSION_ID),
	bmcSessionID(Message::MESSAGE_INVALID_SESSION_ID),
	rmcpMsgClass(ClassOfMsg::RESERVED)
	{}

	/**
	* @brief Special behavior for copy constructor
	*
	* Based on incoming message state, the resulting message will have a
	* pre-baked state. This is used to simplify the flows for creating a
	* response message. For each pre-session state, the response message is
	* actually a different type of message. Once the session has been
	* established, the response type is the same as the request type.
	*/
	Message(const Message& other) :
	isPacketEncrypted(other.isPacketEncrypted),
	isPacketAuthenticated(other.isPacketAuthenticated),
	payloadType(other.payloadType), rcSessionID(other.rcSessionID),
	bmcSessionID(other.bmcSessionID), rmcpMsgClass(other.rmcpMsgClass)
	{
	// special behavior for rmcp+ session creation
	if (PayloadType::OPEN_SESSION_REQUEST == other.payloadType)
	{
	payloadType = PayloadType::OPEN_SESSION_RESPONSE;
	}
	else if (PayloadType::RAKP1 == other.payloadType)
	{
	payloadType = PayloadType::RAKP2;
	}
	else if (PayloadType::RAKP3 == other.payloadType)
	{
	payloadType = PayloadType::RAKP4;
	}
	}
	Message& operator=(const Message&) = default;
	Message(Message&&) = default;
	Message& operator=(Message&&) = default;
	~Message() = default;

	/**
	* @brief Extract the command from the IPMI payload
	*
	* @return Command ID in the incoming message
	*/
	uint32_t getCommand()
	{
	uint32_t command = 0;

	command \|= (static_cast<uint32_t>(payloadType) << 16);
	if (payloadType == PayloadType::IPMI)
	{
	auto request =
	reinterpret_cast<LAN::header::Request*>(payload.data());
	command \|= request->netfn << 8;
	command \|= static_cast<uint32_t>(request->cmd);
	}
	return command;
	}

	/**
	* @brief Create the response IPMI message
	*
	* The IPMI outgoing message is constructed out of payload and the
	* corresponding fields are populated. For the payload type IPMI, the
	* LAN message header and trailer are added.
	*
	* @param[in] output - Payload for outgoing message
	*
	* @return Outgoing message on success and nullptr on failure
	*/
	std::shared_ptr<Message> createResponse(std::vector<uint8_t>& output)
	{
	// SOL packets don't reply; return NULL
	if (payloadType == PayloadType::SOL)
	{
	return nullptr;
	}
	auto outMessage = std::make_shared<Message>(*this);

	if (payloadType == PayloadType::IPMI)
	{
	outMessage->payloadType = PayloadType::IPMI;

	outMessage->payload.resize(sizeof(LAN::header::Response) +
	output.size() +
	sizeof(LAN::trailer::Response));

	auto reqHeader =
	reinterpret_cast<LAN::header::Request*>(payload.data());
	auto respHeader = reinterpret_cast<LAN::header::Response*>(
	outMessage->payload.data());

	// Add IPMI LAN Message Response Header
	respHeader->rqaddr = reqHeader->rqaddr;
	respHeader->netfn = reqHeader->netfn \| 0x04;
	respHeader->cs = crc8bit(&(respHeader->rqaddr), 2);
	respHeader->rsaddr = reqHeader->rsaddr;
	respHeader->rqseq = reqHeader->rqseq;
	respHeader->cmd = reqHeader->cmd;

	auto assembledSize = sizeof(LAN::header::Response);

	// Copy the output by the execution of the command
	std::copy(output.begin(), output.end(),
	outMessage->payload.begin() + assembledSize);
	assembledSize += output.size();

	// Add the IPMI LAN Message Trailer
	auto trailer = reinterpret_cast<LAN::trailer::Response*>(
	outMessage->payload.data() + assembledSize);
	trailer->checksum = crc8bit(&respHeader->rsaddr, assembledSize - 3);
	}
	else
	{
	outMessage->payload = output;
	}
	return outMessage;
	}

	bool isPacketEncrypted; // Message's Encryption Status
	bool isPacketAuthenticated; // Message's Authentication Status
	PayloadType payloadType; // Type of message payload (IPMI,SOL ..etc)
	uint32_t rcSessionID; // Remote Client's Session ID
	uint32_t bmcSessionID; // BMC's session ID
	uint32_t sessionSeqNum; // Session Sequence Number
	ClassOfMsg rmcpMsgClass; // Class of Message
	#ifdef RMCP_PING
	uint8_t asfMsgTag; // ASF Message Tag
	#endif // RMCP_PING

	/** @brief Message payload
	*
	* “Payloads” are a capability specified for RMCP+ that enable an IPMI
	* session to carry types of traffic that are in addition to IPMI Messages.
	* Payloads can be ‘standard’ or ‘OEM’.Standard payload types include IPMI
	* Messages, messages for session setup under RMCP+, and the payload for
	* the “Serial Over LAN” capability introduced in IPMI v2.0.
	*/
	std::vector<uint8_t> payload;
	};

	} // namespace message