// IBM_PROLOG_BEGIN_TAG // This is an automatically generated prolog. // // $Source: src/usr/fsi/fsipres.C $ // // IBM CONFIDENTIAL // // COPYRIGHT International Business Machines Corp. 2011 // // 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 other- // wise divested of its trade secrets, irrespective of what has // been deposited with the U.S. Copyright Office. // // Origin: 30 // // IBM_PROLOG_END #include #include #include #include "fsidd.H" extern trace_desc_t* g_trac_fsi; namespace FSI { // Forward declaration from fsidd.C. bool isSlavePresent( const TARGETING::Target* i_target ); /** * @brief Performs a presence detect operation. * * This function does FSI presence detect, following the pre-defined prototype * for a device-driver framework function. * * @param[in] i_opType Operation type, see DeviceFW::OperationType * in driverif.H * @param[in] i_target Presence detect target * @param[in/out] io_buffer Read: Pointer to output data storage * Write: Pointer to input data storage * @param[in/out] io_buflen Input: size of io_buffer (in bytes, always 1) * Output: Success = 1, Failure = 0 * @param[in] i_accessType DeviceFW::AccessType enum (userif.H) * @param[in] i_args This is an argument list for DD framework. * In this function, there are no arguments. * @return errlHndl_t */ errlHndl_t presenceDetect(DeviceFW::OperationType i_opType, TARGETING::Target* i_target, void* io_buffer, size_t& io_buflen, int64_t i_accessType, va_list i_args) { if (io_buflen != sizeof(bool)) { TRACFCOMP(g_trac_fsi, ERR_MRK "FSI::presenceDetect> Invalid data length: %d", io_buflen); /*@ * @errortype * @moduleid FSI::MOD_FSIPRES_PRESENCEDETECT * @reasoncode FSI::RC_INVALID_LENGTH * @userdata1 Data Length * @devdesc presenceDetect> Invalid data length (!= 1 bytes) */ errlHndl_t l_errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_UNRECOVERABLE, FSI::MOD_FSIPRES_PRESENCEDETECT, FSI::RC_INVALID_LENGTH, TO_UINT64(io_buflen)); io_buflen = 0; return l_errl; } bool present = false; TARGETING::Target* l_masterChip = NULL; TARGETING::targetService().masterProcChipTargetHandle(l_masterChip); if ((i_target == TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL) || (i_target == l_masterChip)) { present = true; } else { present = isSlavePresent(i_target); } memcpy(io_buffer, &present, sizeof(present)); io_buflen = sizeof(present); return NULL; } // Register as the presence detect for processor and memory buffers. DEVICE_REGISTER_ROUTE(DeviceFW::READ, DeviceFW::PRESENT, TARGETING::TYPE_PROC, presenceDetect); DEVICE_REGISTER_ROUTE(DeviceFW::READ, DeviceFW::PRESENT, TARGETING::TYPE_MEMBUF, presenceDetect); };