app/channel.cpp - openbmc/phosphor-host-ipmid - Gitiles

 #include "channel.hpp"

 #include "user_channel/channel_layer.hpp"

 #include <arpa/inet.h>

 #include <ipmid/types.hpp>
 #include <ipmid/utils.hpp>
 #include <phosphor-logging/elog-errors.hpp>
 #include <phosphor-logging/lg2.hpp>
 #include <xyz/openbmc_project/Common/error.hpp>

 #include <fstream>
 #include <set>
 #include <string>

 using namespace phosphor::logging;
 using namespace sdbusplus::error::xyz::openbmc_project::common;

 namespace ipmi
 {
 constexpr Cc ccPayloadTypeNotSupported = 0x80;

 static inline auto responsePayloadTypeNotSupported()
 {
     return response(ccPayloadTypeNotSupported);
 }
 } // namespace ipmi

 namespace cipher
 {

 /** @brief Get the supported Cipher records
  *
  * The cipher records are read from the JSON file and converted into
  * 1. cipher suite record format mentioned in the IPMI specification. The
  * records can be either OEM or standard cipher. Each json entry is parsed and
  * converted into the cipher record format and pushed into the vector.
  * 2. Algorithms listed in vector format
  *
  * @return pair of vector containing 1. all the cipher suite records. 2.
  * Algorithms supported
  *
  */
 std::pair<std::vector<uint8_t>, std::vector<uint8_t>> getCipherRecords()
 {
     std::vector<uint8_t> cipherRecords;
     std::vector<uint8_t> supportedAlgorithmRecords;
     // create set to get the unique supported algorithms
     std::set<uint8_t> supportedAlgorithmSet;

     std::ifstream jsonFile(configFile);
     if (!jsonFile.is_open())
     {
         lg2::error("Channel Cipher suites file not found");
         elog<InternalFailure>();
     }

     auto data = Json::parse(jsonFile, nullptr, false);
     if (data.is_discarded())
     {
         lg2::error("Parsing channel cipher suites JSON failed");
         elog<InternalFailure>();
     }

     for (const auto& record : data)
     {
         if (record.find(oem) != record.end())
         {
             // OEM cipher suite - 0xC1
             cipherRecords.push_back(oemCipherSuite);
             // Cipher Suite ID
             cipherRecords.push_back(record.value(cipher, 0));
             // OEM IANA - 3 bytes
             cipherRecords.push_back(record.value(oem, 0));
             cipherRecords.push_back(record.value(oem, 0) >> 8);
             cipherRecords.push_back(record.value(oem, 0) >> 16);
         }
         else
         {
             // Standard cipher suite - 0xC0
             cipherRecords.push_back(stdCipherSuite);
             // Cipher Suite ID
             cipherRecords.push_back(record.value(cipher, 0));
         }

         // Authentication algorithm number
         cipherRecords.push_back(record.value(auth, 0));
         supportedAlgorithmSet.insert(record.value(auth, 0));

         // Integrity algorithm number
         cipherRecords.push_back(record.value(integrity, 0) | integrityTag);
         supportedAlgorithmSet.insert(record.value(integrity, 0) | integrityTag);

         // Confidentiality algorithm number
         cipherRecords.push_back(record.value(conf, 0) | confTag);
         supportedAlgorithmSet.insert(record.value(conf, 0) | confTag);
     }

     // copy the set to supportedAlgorithmRecord which is vector based.
     std::copy(supportedAlgorithmSet.begin(), supportedAlgorithmSet.end(),
               std::back_inserter(supportedAlgorithmRecords));

     return std::make_pair(cipherRecords, supportedAlgorithmRecords);
 }

 } // namespace cipher

 /** @brief this command is used to look up what authentication, integrity,
  *  confidentiality algorithms are supported.
  *
  *  @ param ctx - context pointer
  *  @ param channelNumber - channel number
  *  @ param payloadType - payload type
  *  @ param listIndex - list index
  *  @ param algoSelectBit - list algorithms
  *
  *  @returns ipmi completion code plus response data
  *  - rspChannel - channel number for authentication algorithm.
  *  - rspRecords - cipher suite records.
  **/
 ipmi::RspType<uint8_t,             // Channel Number
               std::vector<uint8_t> // Cipher Records
               >
     getChannelCipherSuites(ipmi::Context::ptr ctx, uint4_t channelNumber,
                            uint4_t reserved1, uint8_t payloadType,
                            uint6_t listIndex, uint1_t reserved2,
                            uint1_t algoSelectBit)
 {
     static std::vector<uint8_t> cipherRecords;
     static std::vector<uint8_t> supportedAlgorithms;
     static auto recordInit = false;

     uint8_t rspChannel = ipmi::convertCurrentChannelNum(
         static_cast<uint8_t>(channelNumber), ctx->channel);

     if (!ipmi::isValidChannel(rspChannel) || reserved1 != 0 || reserved2 != 0)
     {
         return ipmi::responseInvalidFieldRequest();
     }
     if (!ipmi::isValidPayloadType(static_cast<ipmi::PayloadType>(payloadType)))
     {
         lg2::debug("Get channel cipher suites - Invalid payload type");
         return ipmi::responsePayloadTypeNotSupported();
     }

     if (!recordInit)
     {
         try
         {
             std::tie(cipherRecords, supportedAlgorithms) =
                 cipher::getCipherRecords();
             recordInit = true;
         }
         catch (const std::exception& e)
         {
             return ipmi::responseUnspecifiedError();
         }
     }

     const std::vector<uint8_t>& records =
         algoSelectBit ? cipherRecords : supportedAlgorithms;
     static constexpr auto respSize = 16;

     // Session support is available in active LAN channels.
     if ((ipmi::getChannelSessionSupport(rspChannel) ==
          ipmi::EChannelSessSupported::none) ||
         !(ipmi::doesDeviceExist(rspChannel)))
     {
         lg2::debug("Get channel cipher suites - Device does not exist");
         return ipmi::responseInvalidFieldRequest();
     }

     // List index(00h-3Fh), 0h selects the first set of 16, 1h selects the next
     // set of 16 and so on.

     // Calculate the number of record data bytes to be returned.
     auto start =
         std::min(static_cast<size_t>(listIndex) * respSize, records.size());
     auto end = std::min((static_cast<size_t>(listIndex) * respSize) + respSize,
                         records.size());
     auto size = end - start;

     std::vector<uint8_t> rspRecords;
     std::copy_n(records.data() + start, size, std::back_inserter(rspRecords));

     return ipmi::responseSuccess(rspChannel, rspRecords);
 }
	#include "channel.hpp"

	#include "user_channel/channel_layer.hpp"

	#include <arpa/inet.h>

	#include <ipmid/types.hpp>
	#include <ipmid/utils.hpp>
	#include <phosphor-logging/elog-errors.hpp>
	#include <phosphor-logging/lg2.hpp>
	#include <xyz/openbmc_project/Common/error.hpp>

	#include <fstream>
	#include <set>
	#include <string>

	using namespace phosphor::logging;
	using namespace sdbusplus::error::xyz::openbmc_project::common;

	namespace ipmi
	{
	constexpr Cc ccPayloadTypeNotSupported = 0x80;

	static inline auto responsePayloadTypeNotSupported()
	{
	return response(ccPayloadTypeNotSupported);
	}
	} // namespace ipmi

	namespace cipher
	{

	/** @brief Get the supported Cipher records
	*
	* The cipher records are read from the JSON file and converted into
	* 1. cipher suite record format mentioned in the IPMI specification. The
	* records can be either OEM or standard cipher. Each json entry is parsed and
	* converted into the cipher record format and pushed into the vector.
	* 2. Algorithms listed in vector format
	*
	* @return pair of vector containing 1. all the cipher suite records. 2.
	* Algorithms supported
	*
	*/
	std::pair<std::vector<uint8_t>, std::vector<uint8_t>> getCipherRecords()
	{
	std::vector<uint8_t> cipherRecords;
	std::vector<uint8_t> supportedAlgorithmRecords;
	// create set to get the unique supported algorithms
	std::set<uint8_t> supportedAlgorithmSet;

	std::ifstream jsonFile(configFile);
	if (!jsonFile.is_open())
	{
	lg2::error("Channel Cipher suites file not found");
	elog<InternalFailure>();
	}

	auto data = Json::parse(jsonFile, nullptr, false);
	if (data.is_discarded())
	{
	lg2::error("Parsing channel cipher suites JSON failed");
	elog<InternalFailure>();
	}

	for (const auto& record : data)
	{
	if (record.find(oem) != record.end())
	{
	// OEM cipher suite - 0xC1
	cipherRecords.push_back(oemCipherSuite);
	// Cipher Suite ID
	cipherRecords.push_back(record.value(cipher, 0));
	// OEM IANA - 3 bytes
	cipherRecords.push_back(record.value(oem, 0));
	cipherRecords.push_back(record.value(oem, 0) >> 8);
	cipherRecords.push_back(record.value(oem, 0) >> 16);
	}
	else
	{
	// Standard cipher suite - 0xC0
	cipherRecords.push_back(stdCipherSuite);
	// Cipher Suite ID
	cipherRecords.push_back(record.value(cipher, 0));
	}

	// Authentication algorithm number
	cipherRecords.push_back(record.value(auth, 0));
	supportedAlgorithmSet.insert(record.value(auth, 0));

	// Integrity algorithm number
	cipherRecords.push_back(record.value(integrity, 0) \| integrityTag);
	supportedAlgorithmSet.insert(record.value(integrity, 0) \| integrityTag);

	// Confidentiality algorithm number
	cipherRecords.push_back(record.value(conf, 0) \| confTag);
	supportedAlgorithmSet.insert(record.value(conf, 0) \| confTag);
	}

	// copy the set to supportedAlgorithmRecord which is vector based.
	std::copy(supportedAlgorithmSet.begin(), supportedAlgorithmSet.end(),
	std::back_inserter(supportedAlgorithmRecords));

	return std::make_pair(cipherRecords, supportedAlgorithmRecords);
	}

	} // namespace cipher

	/** @brief this command is used to look up what authentication, integrity,
	* confidentiality algorithms are supported.
	*
	* @ param ctx - context pointer
	* @ param channelNumber - channel number
	* @ param payloadType - payload type
	* @ param listIndex - list index
	* @ param algoSelectBit - list algorithms
	*
	* @returns ipmi completion code plus response data
	* - rspChannel - channel number for authentication algorithm.
	* - rspRecords - cipher suite records.
	**/
	ipmi::RspType<uint8_t, // Channel Number
	std::vector<uint8_t> // Cipher Records
	>
	getChannelCipherSuites(ipmi::Context::ptr ctx, uint4_t channelNumber,
	uint4_t reserved1, uint8_t payloadType,
	uint6_t listIndex, uint1_t reserved2,
	uint1_t algoSelectBit)
	{
	static std::vector<uint8_t> cipherRecords;
	static std::vector<uint8_t> supportedAlgorithms;
	static auto recordInit = false;

	uint8_t rspChannel = ipmi::convertCurrentChannelNum(
	static_cast<uint8_t>(channelNumber), ctx->channel);

	if (!ipmi::isValidChannel(rspChannel) \|\| reserved1 != 0 \|\| reserved2 != 0)
	{
	return ipmi::responseInvalidFieldRequest();
	}
	if (!ipmi::isValidPayloadType(static_cast<ipmi::PayloadType>(payloadType)))
	{
	lg2::debug("Get channel cipher suites - Invalid payload type");
	return ipmi::responsePayloadTypeNotSupported();
	}

	if (!recordInit)
	{
	try
	{
	std::tie(cipherRecords, supportedAlgorithms) =
	cipher::getCipherRecords();
	recordInit = true;
	}
	catch (const std::exception& e)
	{
	return ipmi::responseUnspecifiedError();
	}
	}

	const std::vector<uint8_t>& records =
	algoSelectBit ? cipherRecords : supportedAlgorithms;
	static constexpr auto respSize = 16;

	// Session support is available in active LAN channels.
	if ((ipmi::getChannelSessionSupport(rspChannel) ==
	ipmi::EChannelSessSupported::none) \|\|
	!(ipmi::doesDeviceExist(rspChannel)))
	{
	lg2::debug("Get channel cipher suites - Device does not exist");
	return ipmi::responseInvalidFieldRequest();
	}

	// List index(00h-3Fh), 0h selects the first set of 16, 1h selects the next
	// set of 16 and so on.

	// Calculate the number of record data bytes to be returned.
	auto start =
	std::min(static_cast<size_t>(listIndex) * respSize, records.size());
	auto end = std::min((static_cast<size_t>(listIndex) * respSize) + respSize,
	records.size());
	auto size = end - start;

	std::vector<uint8_t> rspRecords;
	std::copy_n(records.data() + start, size, std::back_inserter(rspRecords));

	return ipmi::responseSuccess(rspChannel, rspRecords);
	}