/* IBM_PROLOG_BEGIN_TAG */ /* This is an automatically generated prolog. */ /* */ /* $Source: src/usr/errl/plugins/errludbacktrace.H $ */ /* */ /* IBM CONFIDENTIAL */ /* */ /* COPYRIGHT International Business Machines Corp. 2012,2013 */ /* */ /* 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_UDBACKTRACE_H #define ERRL_UDBACKTRACE_H /** * @file errludbacktrace.H * * Defines the ErrlUserDetailsParserBackTrace class that parses backtrace FFDC * user detail in an error log */ #include "errluserdetails.H" #include "symbols.H" #include namespace ERRORLOG { /** * @class ErrlUserDetailsParserBackTrace * * Parses backtrace user detail in an error log */ class ErrlUserDetailsParserBackTrace : public ErrlUserDetailsParser { public: /** * @brief Constructor */ ErrlUserDetailsParserBackTrace() {} /** * @brief Destructor */ virtual ~ErrlUserDetailsParserBackTrace() {} /** * @brief Parses backtrace 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 { // This buffer contains a number of 64-bit frame pointers. // A character vector for storing a backtrace entry and the space // required for the header (frame number and address (with some padding // for safety)) and the symbol name. This vector is resized if a longer // symbol name is encountered. const uint8_t BACKTRACE_ENTRY_HEADER_SIZE = 32; const uint8_t BACKTRACE_ENTRY_SYMBOL_SIZE = 64; std::vector l_traceEntry(BACKTRACE_ENTRY_HEADER_SIZE + BACKTRACE_ENTRY_SYMBOL_SIZE); // Initialize l_the symbol table. const char * const l_pNfsSymFile = "/nfs/data/hbicore.syms"; hbSymbolTable symTab; int readRC = symTab.readSymbols( l_pNfsSymFile ); if( readRC ) { // Not found in NFS, look in maint for symbol file const char * const l_pMaintSymFile = "/maint/data/hbicore.syms"; readRC = symTab.readSymbols( l_pMaintSymFile ); if( readRC ) { // Not found in maint, look in pwd const char * const l_pPwdSymFile = "hbicore.syms"; readRC = symTab.readSymbols( l_pPwdSymFile ); if( readRC ) { i_parser.PrintString( "Symbols not found", l_pPwdSymFile ); // symTab.nearestSymbol() will return NULL because of this. // Carry on. } } } const char * l_pErrlEntry = "ErrlEntry::ErrlEntry"; const char * l_pLabel = "Backtrace"; // loop thru the buffer which is an array of 64-bit addresses uint64_t * p64 = static_cast(i_pBuffer); int l_count = i_buflen / sizeof( uint64_t ); for( int i = 0; i < l_count; i++ ) { // endian convert the stack address uint64_t l_addr = ntohll(*p64); // get nearest symbol const char * l_pSymbol = symTab.nearestSymbol( l_addr ); if( l_pSymbol ) { if( strstr( l_pSymbol, l_pErrlEntry )) { // hackish, makes for better looking output // it's in every backtrace (jan2012) l_pSymbol = l_pErrlEntry; } uint16_t l_traceSize = (BACKTRACE_ENTRY_HEADER_SIZE + strlen(l_pSymbol) + 1); if (l_traceEntry.size() < l_traceSize) { l_traceEntry.resize(l_traceSize); } sprintf(&(l_traceEntry[0]), "#%2d %016llX %s", i, l_addr, l_pSymbol); } else { sprintf(&(l_traceEntry[0]),"#%2d %016llX", i, l_addr); } i_parser.PrintString( l_pLabel, &(l_traceEntry[0]) ); // next stack address in the buffer p64++; // don't print the label for subsequent backtraces l_pLabel = ""; } } private: // Disabled ErrlUserDetailsParserBackTrace(const ErrlUserDetailsParserBackTrace &); ErrlUserDetailsParserBackTrace & operator=( const ErrlUserDetailsParserBackTrace &); }; } #endif