/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/usr/fsi/plugins/errludP_fsi.H $ */ /* */ /* IBM CONFIDENTIAL */ /* */ /* COPYRIGHT International Business Machines Corp. 2013 */ /* */ /* p1 */ /* */ /* Object Code Only (OCO) source materials */ /* Licensed Internal Code Source Materials */ /* IBM HostBoot Licensed Internal Code */ /* */ /* 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. */ /* */ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ #ifndef ERRL_UDP_FSI_H #define ERRL_UDP_FSI_H /** * @file errludP_fsi.H * * Defines the ErrlUserDetailsParser classes that parse FSI FFDC */ #include "errluserdetails.H" #include /** * Some macros to manipulate data types cleanly */ #define TO_UINT8(ptr) (*(reinterpret_cast(ptr))) #define TO_UINT16(ptr) (ntohs(*(reinterpret_cast(ptr)))) #define TO_UINT32(ptr) (ntohl(*(reinterpret_cast(ptr)))) #define TO_UINT64(ptr) (ntohll(*(reinterpret_cast(ptr)))) namespace FSI { /** * @class UdParserPresence * * Parses UdPresence */ class UdParserPresence : public ERRORLOG::ErrlUserDetailsParser { public: /** * @brief Constructor */ UdParserPresence() {} /** * @brief Destructor */ virtual ~UdParserPresence() {} /** * @brief Parses string user detail data from an error log * * @param i_version Version of the data * @param i_parse ErrlUsrParser object for outputting information * @param i_pBuffer Pointer to buffer containing detail data * @param i_buflen Length of the buffer */ virtual void parse(errlver_t i_version, ErrlUsrParser & i_parser, void * i_pBuffer, const uint32_t i_buflen) const { char* l_databuf = static_cast(i_pBuffer); i_parser.PrintHeading("FSI Presence"); //***** Memory Layout ***** // 4 bytes : Slave HUID // 4 bytes : Master HUID // 1 byte : FSI_MASTER_TYPE // 1 byte : port // 1 byte : cascade // 2 bytes : flags // 4 bytes : linkid (node+proc+type+port) // 2 bytes : Size of iv_slaves[] // 8 bytes : slave enable Index // X bytes : iv_slaves[] i_parser.PrintNumber("Slave","%.8lX",TO_UINT32(l_databuf)); l_databuf += sizeof(uint32_t); i_parser.PrintNumber("Master","%.8lX",TO_UINT32(l_databuf)); l_databuf += sizeof(uint32_t); i_parser.PrintNumber("Type","%.2lX",TO_UINT8(l_databuf)); l_databuf += sizeof(uint8_t); i_parser.PrintNumber("Port","%.2lX",TO_UINT8(l_databuf)); l_databuf += sizeof(uint8_t); i_parser.PrintNumber("Cascade","%.2lX",TO_UINT8(l_databuf)); l_databuf += sizeof(uint8_t); i_parser.PrintNumber("Flags","%.4lX",TO_UINT16(l_databuf)); l_databuf += sizeof(uint16_t); size_t slave_size = TO_UINT16(l_databuf); l_databuf += sizeof(uint16_t); uint64_t index = TO_UINT64(l_databuf); l_databuf += sizeof(uint64_t); i_parser.PrintHeading("Detected Slaves"); char label[12]; for( size_t mport = 0; mport < slave_size; mport++ ) { if( mport == index ) { sprintf( label, " *Master%d*", mport ); } else { sprintf( label, " Master%d", mport ); } i_parser.PrintNumber(label,"%.2lX",TO_UINT8(l_databuf)); l_databuf += sizeof(uint8_t); } } private: // Disabled UdParserPresence(const UdParserPresence&); UdParserPresence & operator=(const UdParserPresence&); }; /** * @class UdParserOperation * * Parses UdOperation */ class UdParserOperation : public ERRORLOG::ErrlUserDetailsParser { public: /** * @brief Constructor */ UdParserOperation() {} /** * @brief Destructor */ virtual ~UdParserOperation() {} /** * @brief Parses string user detail data from an error log * * @param i_version Version of the data * @param i_parse ErrlUsrParser object for outputting information * @param i_pBuffer Pointer to buffer containing detail data * @param i_buflen Length of the buffer */ virtual void parse(errlver_t i_version, ErrlUsrParser & i_parser, void * i_pBuffer, const uint32_t i_buflen) const { char* l_databuf = static_cast(i_pBuffer); //***** Memory Layout ***** // 4 bytes : Target HUID // 8 bytes : FSI Address // 1 byte : 1=read, 0=write uint32_t targ = TO_UINT32(l_databuf); l_databuf += sizeof(uint32_t); uint64_t addr = TO_UINT64(l_databuf); l_databuf += sizeof(uint64_t); uint8_t op = TO_UINT8(l_databuf); l_databuf += sizeof(uint8_t); if( op == 1 ) { i_parser.PrintHeading("FSI Read"); } else if( op == 0 ) { i_parser.PrintHeading("FSI Write"); } else { i_parser.PrintHeading("Unknown FSI Operation"); } // Print out the memory addresses i_parser.PrintNumber("Op Target","%.8lX",targ); i_parser.PrintNumber("Address","%.8lX",(uint32_t)addr);//@todo: RTC:81826 } private: // Disabled UdParserOperation(const UdParserOperation&); UdParserOperation & operator=(const UdParserOperation&); }; } #endif