/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/include/usr/util/utilmclmgr.H $ */ /* */ /* OpenPOWER HostBoot Project */ /* */ /* Contributors Listed Below - COPYRIGHT 2017,2018 */ /* [+] International Business Machines Corp. */ /* */ /* */ /* 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. */ /* */ /* IBM_PROLOG_END_TAG */ #ifndef __MASTERCONTAINERLIDMGR_H #define __MASTERCONTAINERLIDMGR_H #include #include #include #include #include #include // Forward declarations class MasterContainerLidMgrTest; namespace MCL { // Component ID(name) within MCL typedef std::array ComponentID; // Component ID in string form // NOTE: ComponentID in the MCL does not include NULL terminator so include room typedef char CompIdString[17]; // Constants to simplify checking for the MCL and POWERVM comp ids extern const ComponentID g_MclCompId; extern const ComponentID g_PowervmCompId; extern const ComponentID g_OpalCompId; // @enum Permission Types for MCL Component enum class CompFlags : uint16_t { UNSIGNED = 0x0000, SIGNED = 0x8000, PRE_VERIFY = 0x4000, SIGNED_PRE_VERIFY = SIGNED|PRE_VERIFY, }; /** * @brief Comp Flags logical AND overload * * @param[in] lhs - CompFlags to compare to * @param[in] rhs - CompFlags to compare to * * @return CompFlags - The result of logically AND'ing two CompFlags */ inline CompFlags operator&(const CompFlags &lhs, const CompFlags &rhs) { return static_cast( static_cast(lhs) & static_cast(rhs) ); } /** * @brief Comp Flags logical OR overload * * @param[in] lhs - CompFlags to compare to * @param[in] rhs - CompFlags to compare to * * @return CompFlags - The result of logically OR'ing two CompFlags */ inline CompFlags operator|(const CompFlags &lhs, const CompFlags &rhs) { return static_cast( static_cast(lhs) | static_cast(rhs) ); } // MCL header section struct MclHeader { uint32_t version; uint32_t offsetToCompSection; uint8_t numComponents; uint8_t reserved[7]; } __attribute__ ((packed)); // Structure for each component within the MCL struct MclCompSection { ComponentID compId; uint32_t sizeCompList; uint32_t numLids; CompFlags flags; uint8_t reserved[6]; // Array size determined by numLids uint32_t lidArray[]; //padding to 16 byte boundary } __attribute__ ((packed)); // Padded size for MCL components extern const size_t MclCompSectionPadSize; // @brief Structure that holds lid ids and sizes struct LidInfo { LidInfo(): id(0), size(0) {} LidInfo(uint32_t i_id): id(i_id), size(0) {} LidInfo(uint32_t i_id, size_t i_size): id(i_id), size(i_size) {} uint32_t id; size_t size; /** * @brief Lid Info equality comparison * * @param[in] rhs - LidInfo to compare to * @return bool - true if Lid Infos are equal, false otherwise */ bool operator==(const LidInfo& rhs) const { return (id == rhs.id && size == rhs.size); } /** * @brief Lid Info inequality comparison * * @param[in] rhs - LidInfo to compare to * @return bool - true if Lid Infos are not equal, false otherwise */ bool operator!=(const LidInfo& rhs) const { return !(*this == rhs); } }; // @brief Structure that holds information on each component in the MCL struct CompInfo { CompFlags flags; uint64_t mainstoreAddr; size_t totalSize; size_t protectedSize; size_t unprotectedSize; std::vector lidIds; // Constructors CompInfo() : flags(CompFlags::UNSIGNED), mainstoreAddr(0), totalSize(0), protectedSize(0), unprotectedSize(0), lidIds{} {} CompInfo(CompFlags i_flags) : flags(i_flags), mainstoreAddr(0), totalSize(0), protectedSize(0), unprotectedSize(0), lidIds{} {} /** * @brief Comp Info equality comparison * * @param[in] rhs - CompInfo to compare to * @return bool - true if Comp Infos are equal, false otherwise */ bool operator==(const CompInfo& rhs) const { return (flags == rhs.flags && mainstoreAddr == rhs.mainstoreAddr && totalSize == rhs.totalSize && protectedSize == rhs.protectedSize && unprotectedSize == rhs.unprotectedSize && lidIds == rhs.lidIds); } /** * @brief Comp Info inequality comparison * * @param[in] rhs - CompInfo to compare to * @return bool - true if Comp Infos are not equal, false otherwise */ bool operator!=(const CompInfo& rhs) const { return !(*this == rhs); } /** * @brief Print Comp Info in human friendly format * @return N/A */ void print() const; }; // Structure for Comp Info cache typedef std::map CompInfoMap; /** * @brief Convert Component ID to a char* * Helpful for trace * * @param[in] i_compId - Component ID to convert * @param[out] o_compIdStr - Component ID String * * @return N/A */ void compIdToString(const ComponentID i_compId, CompIdString o_compIdStr); /** * @brief Convert/truncate Component ID to a uint64_t * Helpful for FFDC * * @param[in] i_compId - Component ID to convert * * @return uint64_t - truncated Component ID */ uint64_t compIdToInt(const ComponentID i_compId); /** * @brief Extract list of lid ids from lid info vector * * @param[in] i_lidIds - Vector to pull lid ids out of * * @return RomVerifyIds - IDs associated with secure component */ RomVerifyIds extractLidIds(const std::vector& i_lidIds); // @brief Class to manager the Master Container Lid provided by the FSP class MasterContainerLidMgr { public: /** * @brief Default Constructor * Initializes memory spaces, loads, and parses the MCL. */ MasterContainerLidMgr(); /** * @brief Destructor. Cleans up memory allocated for class */ ~MasterContainerLidMgr(); /** * @brief Process each component in the MCL. * See: processComponent for more info */ errlHndl_t processComponents(); /** * @brief TPM extend information for secure components * * @param[in] i_compId - Component Id * @param[in] i_conHdr - Container header with information to extend * * @return Error handle if error */ static errlHndl_t tpmExtend(const ComponentID& i_compId, const SECUREBOOT::ContainerHeader& i_conHdr); protected: /** * @brief Custom Constructor. * Same as default cstor, but passes in a custom MCL * NOTE: protected cstor to be used by test cases only * nullptr indicates to load from UtilLidMgr * @param[in] i_pMcl - pointer to custom MCL * @param[in] i_size - size of custom MCL */ MasterContainerLidMgr(const void* i_pMcl, const size_t i_size); private: /** * @brief Common function for all constructors to call to initialize the MCL * * @param[in] i_pMcl - Pointer to custom MCL if provided * NOTE: nullptr indicates to load from UtilLidMgr * @param[in] i_pMcl - Size of Custom MCL * * @return N/A */ void initMcl(const void* i_pMcl = nullptr, const size_t i_mclSize = 0); /** * @brief Responsible for allocating space for MCL mgr component parsing * NOTE: Will shutdown if error occurs * * @param[in] i_physAddr - Starting physical address to initialize memory * @param[in] i_size - Size to allocate * @param[in/out] io_pVaddr - Pointer to store virtual address pointer from * block map * NOTE: no-op unless the pointer is a nullptr * * @return N/A */ void initMem(const uint64_t i_physAddr, const size_t i_size, void *&io_pVaddr); /** * @brief Responsible for deallocating space used by MCL component parsing * NOTE: Will shutdown if error occurs * * @param[in] i_physAddr - Starting physical address to deallocate from * @param[in/out] io_pVaddr - Pointer to virtual memory to release * NOTE: no-op if the pointer is nullptr * * @return N/A */ void releaseMem(const uint64_t i_physAddr, void *&io_pVaddr); /** * @brief Parse MCL and store important information in Comp Info Cache * Will also print out Comp Info Cache * @return N/A */ void parseMcl(); /** * @brief Print MCL Comp Info Cache in human friendly format * @return N/A */ void printCompInfoCache(); /** * @brief Process single component in the MCL. * Loads, verifies, tpm extends lids and loads into hb resv memory * * @param[in] i_compId - Component Id * @param[in] io_compInfo - Component info of component to process * * @return Error handle if error */ errlHndl_t processComponent(const ComponentID& i_compId, CompInfo& io_compInfo); /** * @brief Load all lids associated with a Component into contiguous memory * NOTE: updates the lid sizes in CompInfo * * @param[in] io_compInfo - Component info of component to verify * @param[out] o_totalSize - Size of all lids reported by the FSP * @param[in] i_isPhypComp - Indicates if PHYP lids * * @return Error handle if error */ errlHndl_t loadLids(CompInfo& io_compInfo, size_t& o_totalSize, bool i_isPhypComp); /** * @brief Verify and Extend Component * * @param[in] i_compId - Component Id * @param[in] io_compInfo - Component info of component to verify * * @return Error handle if error * Note: Will not return on Secure Verification Error */ errlHndl_t verifyExtend(const ComponentID& i_compId, CompInfo& io_compInfo); // Physical addresses reserved for the MCL itself uint64_t iv_mclAddr; // Maximum size of memory for the MCL itself size_t iv_mclSize; // Physical addresses reserved for temp MCL mgr space uint64_t iv_tmpAddr; // Maximum size of memory for temp MCL mgr workspace size_t iv_tmpSize; // Maximum size based on MCL or temp components size_t iv_maxSize; // Pointer to MCL virtual address space void* iv_pMclVaddr; // Pointer to MCL temp virtual address space void* iv_pTempVaddr; // Pointer to either MCL or TMP virtual address spaces void* iv_pVaddr; // Cache Components and their corresponding lids CompInfoMap iv_compInfoCache; // Indicates that Master Container Lid has a header bool iv_hasHeader; // Cache current comp id string for easy tracing CompIdString iv_curCompIdStr; // Allow test cases to call custom constructors and have direct access friend class ::MasterContainerLidMgrTest; }; } // end namespace MCL #endif