message_handler.cpp - openbmc/phosphor-net-ipmid - Gitiles

 #include "message_handler.hpp"

 #include "command_table.hpp"
 #include "main.hpp"
 #include "message.hpp"
 #include "message_parsers.hpp"
 #include "sessions_manager.hpp"

 #include <sys/socket.h>

 #include <phosphor-logging/lg2.hpp>

 #include <memory>
 #include <string>
 #include <vector>

 namespace message
 {

 bool Handler::receive()
 {
     std::vector<uint8_t> packet;
     auto readStatus = 0;

     // Read the packet
     std::tie(readStatus, packet) = channel->read();

     // Read of the packet failed
     if (readStatus < 0)
     {
         lg2::error("Error in Read status: {STATUS}", "STATUS", readStatus);
         return false;
     }

     // Unflatten the packet
     std::tie(inMessage, sessionHeader) = parser::unflatten(packet);

     return true;
 }

 void Handler::updSessionData(std::shared_ptr<Message>& inMessage)
 {
     session = session::Manager::get().getSession(inMessage->bmcSessionID);

     sessionID = inMessage->bmcSessionID;
     inMessage->rcSessionID = session->getRCSessionID();
     session->updateLastTransactionTime();
     session->channelPtr = channel;
     session->remotePort(channel->getPort());
     uint32_t ipAddr = 0;
     channel->getRemoteAddress(ipAddr);
     session->remoteIPAddr(ipAddr);
 }

 Handler::~Handler()
 {
     try
     {
 #ifdef RMCP_PING
         if (ClassOfMsg::ASF == inMessage->rmcpMsgClass)
         {
             sendASF();
         }
         else
 #endif // RMCP_PING
         {
             if (outPayload)
             {
                 std::shared_ptr<Message> outMessage =
                     inMessage->createResponse(*outPayload);
                 if (!outMessage)
                 {
                     return;
                 }
                 send(outMessage);
             }
         }
     }
     catch (const std::exception& e)
     {
         // send failed, most likely due to a session closure
         lg2::info("Async RMCP+ reply failed: {ERROR}", "ERROR", e);
     }
 }

 void Handler::processIncoming()
 {
     // Read the incoming IPMI packet
     if (!receive())
     {
         return;
     }

 #ifdef RMCP_PING
     // Execute the Command, possibly asynchronously
     if (ClassOfMsg::ASF != inMessage->rmcpMsgClass)
 #endif // RMCP_PING
     {
         updSessionData(inMessage);
         executeCommand();
     }

     // send happens during the destructor if a payload was set
 }

 void Handler::executeCommand()
 {
     // Get the CommandID to map into the command table
     auto command = inMessage->getCommand();
     if (inMessage->payloadType == PayloadType::IPMI)
     {
         // Process PayloadType::IPMI only if ipmi is enabled or for sessionless
         // or for session establisbment command
         if (this->sessionID == session::sessionZero ||
             session->sessionUserPrivAccess.ipmiEnabled)
         {
             if (inMessage->payload.size() <
                 (sizeof(LAN::header::Request) + sizeof(LAN::trailer::Request)))
             {
                 return;
             }

             auto start =
                 inMessage->payload.begin() + sizeof(LAN::header::Request);
             auto end = inMessage->payload.end() - sizeof(LAN::trailer::Request);
             std::vector<uint8_t> inPayload(start, end);
             command::Table::get().executeCommand(command, inPayload,
                                                  shared_from_this());
         }
         else
         {
             std::vector<uint8_t> payload{IPMI_CC_INSUFFICIENT_PRIVILEGE};
             outPayload = std::move(payload);
         }
     }
     else
     {
         command::Table::get().executeCommand(command, inMessage->payload,
                                              shared_from_this());
     }
 }

 void Handler::writeData(const std::vector<uint8_t>& packet)
 {
     auto writeStatus = channel->write(packet);
     if (writeStatus < 0)
     {
         throw std::runtime_error("Error in writing to socket");
     }
 }

 #ifdef RMCP_PING
 void Handler::sendASF()
 {
     // Flatten the packet
     auto packet = asfparser::flatten(inMessage->asfMsgTag);

     // Write the packet
     writeData(packet);
 }
 #endif // RMCP_PING

 void Handler::send(std::shared_ptr<Message> outMessage)
 {
     // Flatten the packet
     auto packet = parser::flatten(outMessage, sessionHeader, session);

     // Write the packet
     writeData(packet);
 }

 void Handler::setChannelInSession() const
 {
     session->channelPtr = channel;
 }

 void Handler::sendSOLPayload(const std::vector<uint8_t>& input)
 {
     auto outMessage = std::make_shared<Message>();
     outMessage->payloadType = PayloadType::SOL;
     outMessage->payload = input;
     outMessage->isPacketEncrypted = session->isCryptAlgoEnabled();
     outMessage->isPacketAuthenticated = session->isIntegrityAlgoEnabled();
     outMessage->rcSessionID = session->getRCSessionID();
     outMessage->bmcSessionID = sessionID;

     send(outMessage);
 }

 void Handler::sendUnsolicitedIPMIPayload(uint8_t netfn, uint8_t cmd,
                                          const std::vector<uint8_t>& output)
 {
     auto outMessage = std::make_shared<Message>();
     outMessage->payloadType = PayloadType::IPMI;
     outMessage->isPacketEncrypted = session->isCryptAlgoEnabled();
     outMessage->isPacketAuthenticated = session->isIntegrityAlgoEnabled();
     outMessage->rcSessionID = session->getRCSessionID();
     outMessage->bmcSessionID = sessionID;

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

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

     // Add IPMI LAN Message Request Header
     respHeader->rsaddr = LAN::requesterBMCAddress;
     respHeader->netfn = (netfn << 0x02);
     respHeader->cs = crc8bit(&(respHeader->rsaddr), 2);
     respHeader->rqaddr = LAN::responderBMCAddress;
     respHeader->rqseq = 0;
     respHeader->cmd = cmd;

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

     // 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::Request*>(
         outMessage->payload.data() + assembledSize);

     // Calculate the checksum for the field rqaddr in the header to the
     // command data, 3 corresponds to size of the fields before rqaddr( rsaddr,
     // netfn, cs).
     trailer->checksum = crc8bit(&respHeader->rqaddr, assembledSize - 3);

     send(outMessage);
 }

 } // namespace message
	#include "message_handler.hpp"

	#include "command_table.hpp"
	#include "main.hpp"
	#include "message.hpp"
	#include "message_parsers.hpp"
	#include "sessions_manager.hpp"

	#include <sys/socket.h>

	#include <phosphor-logging/lg2.hpp>

	#include <memory>
	#include <string>
	#include <vector>

	namespace message
	{

	bool Handler::receive()
	{
	std::vector<uint8_t> packet;
	auto readStatus = 0;

	// Read the packet
	std::tie(readStatus, packet) = channel->read();

	// Read of the packet failed
	if (readStatus < 0)
	{
	lg2::error("Error in Read status: {STATUS}", "STATUS", readStatus);
	return false;
	}

	// Unflatten the packet
	std::tie(inMessage, sessionHeader) = parser::unflatten(packet);

	return true;
	}

	void Handler::updSessionData(std::shared_ptr<Message>& inMessage)
	{
	session = session::Manager::get().getSession(inMessage->bmcSessionID);

	sessionID = inMessage->bmcSessionID;
	inMessage->rcSessionID = session->getRCSessionID();
	session->updateLastTransactionTime();
	session->channelPtr = channel;
	session->remotePort(channel->getPort());
	uint32_t ipAddr = 0;
	channel->getRemoteAddress(ipAddr);
	session->remoteIPAddr(ipAddr);
	}

	Handler::~Handler()
	{
	try
	{
	#ifdef RMCP_PING
	if (ClassOfMsg::ASF == inMessage->rmcpMsgClass)
	{
	sendASF();
	}
	else
	#endif // RMCP_PING
	{
	if (outPayload)
	{
	std::shared_ptr<Message> outMessage =
	inMessage->createResponse(*outPayload);
	if (!outMessage)
	{
	return;
	}
	send(outMessage);
	}
	}
	}
	catch (const std::exception& e)
	{
	// send failed, most likely due to a session closure
	lg2::info("Async RMCP+ reply failed: {ERROR}", "ERROR", e);
	}
	}

	void Handler::processIncoming()
	{
	// Read the incoming IPMI packet
	if (!receive())
	{
	return;
	}

	#ifdef RMCP_PING
	// Execute the Command, possibly asynchronously
	if (ClassOfMsg::ASF != inMessage->rmcpMsgClass)
	#endif // RMCP_PING
	{
	updSessionData(inMessage);
	executeCommand();
	}

	// send happens during the destructor if a payload was set
	}

	void Handler::executeCommand()
	{
	// Get the CommandID to map into the command table
	auto command = inMessage->getCommand();
	if (inMessage->payloadType == PayloadType::IPMI)
	{
	// Process PayloadType::IPMI only if ipmi is enabled or for sessionless
	// or for session establisbment command
	if (this->sessionID == session::sessionZero \|\|
	session->sessionUserPrivAccess.ipmiEnabled)
	{
	if (inMessage->payload.size() <
	(sizeof(LAN::header::Request) + sizeof(LAN::trailer::Request)))
	{
	return;
	}

	auto start =
	inMessage->payload.begin() + sizeof(LAN::header::Request);
	auto end = inMessage->payload.end() - sizeof(LAN::trailer::Request);
	std::vector<uint8_t> inPayload(start, end);
	command::Table::get().executeCommand(command, inPayload,
	shared_from_this());
	}
	else
	{
	std::vector<uint8_t> payload{IPMI_CC_INSUFFICIENT_PRIVILEGE};
	outPayload = std::move(payload);
	}
	}
	else
	{
	command::Table::get().executeCommand(command, inMessage->payload,
	shared_from_this());
	}
	}

	void Handler::writeData(const std::vector<uint8_t>& packet)
	{
	auto writeStatus = channel->write(packet);
	if (writeStatus < 0)
	{
	throw std::runtime_error("Error in writing to socket");
	}
	}

	#ifdef RMCP_PING
	void Handler::sendASF()
	{
	// Flatten the packet
	auto packet = asfparser::flatten(inMessage->asfMsgTag);

	// Write the packet
	writeData(packet);
	}
	#endif // RMCP_PING

	void Handler::send(std::shared_ptr<Message> outMessage)
	{
	// Flatten the packet
	auto packet = parser::flatten(outMessage, sessionHeader, session);

	// Write the packet
	writeData(packet);
	}

	void Handler::setChannelInSession() const
	{
	session->channelPtr = channel;
	}

	void Handler::sendSOLPayload(const std::vector<uint8_t>& input)
	{
	auto outMessage = std::make_shared<Message>();
	outMessage->payloadType = PayloadType::SOL;
	outMessage->payload = input;
	outMessage->isPacketEncrypted = session->isCryptAlgoEnabled();
	outMessage->isPacketAuthenticated = session->isIntegrityAlgoEnabled();
	outMessage->rcSessionID = session->getRCSessionID();
	outMessage->bmcSessionID = sessionID;

	send(outMessage);
	}

	void Handler::sendUnsolicitedIPMIPayload(uint8_t netfn, uint8_t cmd,
	const std::vector<uint8_t>& output)
	{
	auto outMessage = std::make_shared<Message>();
	outMessage->payloadType = PayloadType::IPMI;
	outMessage->isPacketEncrypted = session->isCryptAlgoEnabled();
	outMessage->isPacketAuthenticated = session->isIntegrityAlgoEnabled();
	outMessage->rcSessionID = session->getRCSessionID();
	outMessage->bmcSessionID = sessionID;

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

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

	// Add IPMI LAN Message Request Header
	respHeader->rsaddr = LAN::requesterBMCAddress;
	respHeader->netfn = (netfn << 0x02);
	respHeader->cs = crc8bit(&(respHeader->rsaddr), 2);
	respHeader->rqaddr = LAN::responderBMCAddress;
	respHeader->rqseq = 0;
	respHeader->cmd = cmd;

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

	// 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::Request*>(
	outMessage->payload.data() + assembledSize);

	// Calculate the checksum for the field rqaddr in the header to the
	// command data, 3 corresponds to size of the fields before rqaddr( rsaddr,
	// netfn, cs).
	trailer->checksum = crc8bit(&respHeader->rqaddr, assembledSize - 3);

	send(outMessage);
	}

	} // namespace message