/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: hwpf/fapi2/include/fapi2_hw_access.H $ */ /* */ /* IBM CONFIDENTIAL */ /* */ /* EKB Project */ /* */ /* COPYRIGHT 2012,2016 */ /* [+] International Business Machines Corp. */ /* */ /* */ /* The source code for this program is not published or otherwise */ /* divested of its trade secrets, irrespective of what has been */ /* deposited with the U.S. Copyright Office. */ /* */ /* IBM_PROLOG_END_TAG */ /// /// @file fapi2_hw_access.H /// @brief Common file that defines the hardware access functions that /// platform code must implement. /// #ifndef _FAPI2_COMMON_HWACCESS_H_ #define _FAPI2_COMMON_HWACCESS_H_ #ifdef FAPI_SUPPORT_SPY_AS_ENUM #include typedef uint64_t spyId_t; #endif #include #include // variable_buffer isn't supported on PPE #ifndef __PPE__ #include #endif #include #include #include #include #include namespace fapi2 { //-------------------------------------------------------------------------- // PIB Error Functions //-------------------------------------------------------------------------- /// @brief Sets the PIB error mask - platform dependant /// @param[in] i_mask The new error mask inline void setPIBErrorMask(uint8_t i_mask); /// @brief Gets the PIB error mask - platform dependant /// @return uint8_t The current PIB error mask inline uint8_t getPIBErrorMask(void); //-------------------------------------------------------------------------- // Operational Mode Error Functions //-------------------------------------------------------------------------- /// @brief Sets the operational mode /// @param[in] i_mode The new mode inline void setOpMode(const OpModes i_mode); /// @brief Gets the operational mode /// @return the operational mode inline OpModes getOpMode(void); //-------------------------------------------------------------------------- // HW Communication Functions //-------------------------------------------------------------------------- /// @brief Reads a SCOM register from a chip. /// @tparam K template parameter, passed in target. /// @param[in] i_target HW target to operate on. /// @param[in] i_address SCOM register address to read from. /// @param[out] o_data Buffer that holds data read from HW target. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode getScom(const Target& i_target, const uint64_t i_address, buffer& o_data); /// @brief Writes a SCOM register on a chip. /// @tparam K template parameter, passed in target. /// @param[in] i_target HW target to operate on. /// @param[in] i_address SCOM register address to write to. /// @param[in] i_data Buffer that holds data to write into address. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode putScom(const Target& i_target, const uint64_t i_address, const buffer i_data); /// @brief Writes a SCOM register under mask on a chip /// @tparam K template parameter, passed in target. /// @param[in] i_target HW target to operate on. /// @param[in] i_address SCOM register address to write to. /// @param[in] i_data Buffer that holds data to write into address. /// @param[in] i_mask Buffer that holds the mask value. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode putScomUnderMask(const Target& i_target, const uint64_t i_address, const buffer i_data, const buffer i_mask); /// @brief Reads a CFAM register from a chip. /// CFAM register is 32-bit wide. /// @tparam K template parameter, passed in target. /// @param[in] i_target HW target to operate on. /// @param[in] i_address CFAM register address to read from. /// @param[out] o_data Buffer that holds data read from HW target. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode getCfamRegister(const Target& i_target, const uint32_t i_address, buffer& o_data); /// @brief Writes a CFAM register on a chip. /// CFAM register is 32-bit wide. /// @tparam K template parameter, passed in target. /// @param[in] i_target HW target to operate on. /// @param[in] i_address CFAM register address to write to. /// @param[in] i_data Buffer that holds data to write into address. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode putCfamRegister(const Target& i_target, const uint32_t i_address, const buffer i_data); /// @brief Read-modify-write a CFAM register on a chip. /// CFAM register is 32-bit wide. /// @tparam K template parameter, passed in target. /// @param[in] i_target HW target to operate on. /// @param[in] i_address CFAM register address to modify. /// @param[in] i_data Buffer that holds data to be modified. /// @param[in] i_modifyMode The modify mode (or/and/xor). /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode modifyCfamRegister(const Target& i_target, const uint32_t i_address, const buffer i_data, const ChipOpModifyMode i_modifyMode); /// @brief Writes a ring to a chip. /// @tparam K template parameter, passed in target. /// @param[in] i_target Target to operate on. /// @param[in] i_ringID Ring ID that will identify the Ring in the image. /// @param[in] i_ringMode Ring operation mode. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > ReturnCode putRing(const Target& i_target, const RingID i_ringID, const RingMode i_ringMode = RING_MODE_HEADER_CHECK); // variable_buffer isn't supported on PPE #ifndef __PPE__ /// @brief Reads a ring from a chip. /// @tparam K template parameter, passed in target. /// @param[in] i_target Target to operate on. /// @param[in] i_address Ring address to read from. /// @param[out] o_data Buffer that holds data read from HW target. /// @param[in] i_ringMode Ring operation mode. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode getRing(const Target& i_target, const scanRingId_t i_address, variable_buffer& o_data, const RingMode i_ringMode = 0); /// @brief Read-modify-write a ring on a chip. /// @tparam K template parameter, passed in target. /// @param[in] i_target Target to operate on. /// @param[in] i_address Ring address to modify. /// @param[in] i_data Buffer that contains RS4 compressed ring data /// to be modified. /// @param[in] i_modifyMode The modify mode (or/and/xor) /// @param[in] i_ringMode Ring operation mode. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. template< TargetType K > inline ReturnCode modifyRing(const Target& i_target, const scanRingId_t i_address, const variable_buffer& i_data, const ChipOpModifyMode i_modifyMode, const RingMode i_ringMode = 0); #endif // -------------------------------------------------------------------------- // NOTE: // Implement platform Spy access functions if platform supports them. // -------------------------------------------------------------------------- // variable_buffer isn't supported on PPE #ifndef __PPE__ /// @brief Reads a spy from a chip. /// @tparam K template parameter, passed in target. /// @param[in] TARGET Target to operate on. /// @param[in] ID Id of the spy whose data to be read. /// @param[out] DATA Buffer that holds data read from HW target. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. /// /// @note: The string version is only supported for cronus. /// /// The fapi design to support both FSP and cronus use of get and /// put spy functions is dependant on the SPY names being expanded /// to resemble a valid C identifier. This design places some /// restrictions on the SPY names which can be used. /// /// 1. if the spy name contains a # procedure writers should replace /// it with an __P__ for example - /// /// ABUS.RX0.RXPACKS#0.RXPACK.RD.LC.LC.ACT_DIS /// becomes /// ABUS.RX0.RXPACKS__P__0.RXPACK.RD.LC.LC.ACT_DIS /// /// 2. if the spy name has a number following a "." it must have an /// underscore prepended to the number. /// /// EH.TPCHIP.2KX100_ARY_CLK_EDGES_DLY /// becomes /// EH.TPCHIP._2KX100_ARY_CLK_EDGES_DLY /// /// Example SPY name: /// The hardware procedure should call the function like: /// /// ABUS.RX0.RXPACKS#0.RXPACK.RD.LC.LC.ACT_DIS /// /// fapi2::ReturnCode rc = fapiGetSpy( targ, /// ABUS.RX0.RXPACKS__P__0.RXPACK.RD.LC.LC.ACT_DIS, data ); /// /// @note The ID is not in quotes the fapi code will handle adding /// the quotes for the cronus environment #if defined(FAPI_SUPPORT_SPY_AS_ENUM) || defined(DOXYGEN) #define FAPI_GET_SPY(TARGET, ID, DATA) fapi2::getSpy(TARGET, FAPI_SPY_NAMES::ID.value, DATA) template< TargetType K > inline ReturnCode getSpy(const Target& i_target, const spyId_t i_spyId, variable_buffer& o_data); template< TargetType K > inline ReturnCode getSpy(const Target& i_target, const spyId_t i_spyId, variable_buffer& o_data, const RingMode i_ringMode); #endif #if defined(FAPI_SUPPORT_SPY_AS_STRING) || defined(DOXYGEN) #define FAPI_GET_SPY(TARGET, ID, DATA) fapi2::getSpy(TARGET, #ID, DATA) template< TargetType K > inline ReturnCode getSpy(const Target& i_target, const char* const i_spyId, variable_buffer& o_data); template< TargetType K > inline ReturnCode getSpy(const Target& i_target, const char* const i_spyId, variable_buffer& o_data, const RingMode i_ringMode); #endif /// @brief Writes a spy on a chip. /// @tparam K template parameter, passed in target. /// @param[in] TARGET Target to operate on. /// @param[in] ID Id of the spy to write data to. /// @param[out] DATA Buffer that holds data to write into spy. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. /// /// @note: The string version is only supported for cronus. /// /// The fapi design to support both FSP and cronus use of get and /// put spy functions is dependent on the SPY names being expanded /// to resemble a valid C identifier. This design places some /// restrictions on the SPY names which can be used. /// /// 1. if the spy name contains a # procedure writers should replace /// is with an __P__ for example - /// /// ABUS.RX0.RXPACKS#0.RXPACK.RD.LC.LC.ACT_DIS /// becomes /// ABUS.RX0.RXPACKS__P__0.RXPACK.RD.LC.LC.ACT_DIS /// /// 2. if the spy name has a number following a "." it must have an /// underscore prepended to the number. /// /// EH.TPCHIP.2KX100_ARY_CLK_EDGES_DLY /// becomes /// EH.TPCHIP._2KX100_ARY_CLK_EDGES_DLY /// /// Example SPY name: /// The hardware procedure should call the function like: /// /// ABUS.RX0.RXPACKS#0.RXPACK.RD.LC.LC.ACT_DIS /// /// fapi2::ReturnCode rc = fapiPutSpy( targ, /// ABUS.RX0.RXPACKS__P__0.RXPACK.RD.LC.LC.ACT_DIS, data ); /// /// @note The ID is not in quotes the fapi code will handle adding /// the quotes for the cronus environment /// #if defined(FAPI_SUPPORT_SPY_AS_ENUM) || defined(DOXYGEN) #define FAPI_PUT_SPY(TARGET, ID, DATA) fapi2::putSpy(TARGET, FAPI_SPY_NAMES::ID.value, DATA) template< TargetType K > inline ReturnCode putSpy(const Target& i_target, const spyId_t i_spyId, const variable_buffer& i_data); #endif #if defined(FAPI_SUPPORT_SPY_AS_STRING) || defined(DOXYGEN) #define FAPI_PUT_SPY(TARGET, ID, DATA) fapi2::putSpy(TARGET, #ID, DATA) template< TargetType K > inline ReturnCode putSpy(const Target& i_target, const char* const i_spyId, const variable_buffer& i_data); template< TargetType K > inline ReturnCode putSpy(const Target& i_target, const char* const i_spyId, const char* i_enum); #endif /// @brief Writes spy data into a buffer holding ring data image /// This API is used by L2/L3 repair to put column repair data /// into a ring buffer image. /// @tparam K template parameter, passed in target. /// @param[in] TARGET Target to operate on. /// @param[in] ID Id of the spy. /// @param[in] DATA1 Buffer that holds spy data to write into ring /// image. /// @param[out] DATA2 Buffer that holds updated ring image. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. /// /// @note: The string version is only supported for cronus. /// /// The fapi design to support both FSP and cronus use of get and /// put spy functions is dependent on the SPY names being expanded /// to resemble a valid C identifier. This design places some /// restrictions on the SPY names which can be used. /// /// See fapiPutSpy for details on spy id specifics. /// #if defined(FAPI_SUPPORT_SPY_AS_ENUM) || defined(DOXYGEN) #define FAPI_PUT_SPY_IMAGE(TARGET, ID, DATA1, DATA2) \ fapi2::putSpyImage(TARGET, FAPI_SPY_NAMES::ID.value, \ DATA1, DATA2) template< TargetType K > inline ReturnCode putSpyImage(const Target& i_target, const spyId_t i_spyId, const variable_buffer& i_data, variable_buffer& o_imageData); #endif #if defined(FAPI_SUPPORT_SPY_AS_STRING) || defined(DOXYGEN) #define FAPI_PUT_SPY_IMAGE(TARGET, ID, DATA1, DATA2) \ fapi2::putSpyImage(TARGET, #ID, DATA1,DATA2) template< TargetType K > inline ReturnCode putSpyImage(const Target& i_target, const char* const i_spyId, const variable_buffer& i_data, variable_buffer& o_imageData); #endif /// @brief Reads spy data from a ring image buffer /// @param[in] TARGET Target to operate on /// @param[in] ID The spy's id /// @param[out] DATA1 Buffer that holds data read from ring image. /// @param[in] DATA2 Buffer that holds ring image to read data /// from. /// @return fapi2::ReturnCode. FAPI2_RC_SUCCESS if success, else error code. /// /// @note: The string version is only supported for cronus. /// /// The fapi design to support both FSP and cronus use of get and /// put spy functions is dependent on the SPY names being expanded /// to resemble a valid C identifier. This design places some /// restrictions on the SPY names which can be used. /// /// See fapiPutSpy for details on spy id specifics. /// #if defined(FAPI_SUPPORT_SPY_AS_ENUM) || defined(DOXYGEN) #define FAPI_GET_SPY_IMAGE(TARGET, ID, DATA1, DATA2) \ fapi2:getSpyImage(TARGET, FAPI_SPY_NAMES::ID.value, \ DATA1, DATA2) template< TargetType K > inline ReturnCode getSpyImage(const Target& i_target, const spyId_t i_spyId, variable_buffer& o_data, const variable_buffer& i_imageData); #endif #if defined(FAPI_SUPPORT_SPY_AS_STRING) || defined(DOXYGEN) #define FAPI_GET_SPY_IMAGE(TARGET, ID, DATA1, DATA2) \ fapi2::getSpyImage(TARGET, #ID, DATA1,DATA2) template< TargetType K > inline ReturnCode getSpyImage(const Target& i_target, const char* const i_spyId, variable_buffer& o_data, const variable_buffer& i_imageData); #endif #endif // PPE }; #endif // _FAPI2_HWACCESS_H_