/* * Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2006 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2012 Los Alamos National Security, Inc. All rights reserved. * Copyright (c) 2014-2016 Research Organization for Information Science * and Technology (RIST). All rights reserved. * Copyright (c) 2014-2018 Intel, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include #ifdef HAVE_SYS_TIME_H #include /* for struct timeval */ #endif #include "opal/dss/dss_internal.h" int opal_dss_compare(const void *value1, const void *value2, opal_data_type_t type) { opal_dss_type_info_t *info; /* check for error */ if (NULL == value1 || NULL == value2) { return OPAL_ERR_BAD_PARAM; } /* Lookup the compare function for this type and call it */ if (NULL == (info = (opal_dss_type_info_t*)opal_pointer_array_get_item(&opal_dss_types, type))) { return OPAL_ERR_UNKNOWN_DATA_TYPE; } return info->odti_compare_fn(value1, value2, type); } /* * NUMERIC COMPARE FUNCTIONS */ int opal_dss_compare_int(int *value1, int *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_uint(unsigned int *value1, unsigned int *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_size(size_t *value1, size_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_pid(pid_t *value1, pid_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_byte(char *value1, char *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_char(char *value1, char *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_int8(int8_t *value1, int8_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_uint8(uint8_t *value1, uint8_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_int16(int16_t *value1, int16_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_uint16(uint16_t *value1, uint16_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_int32(int32_t *value1, int32_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_uint32(uint32_t *value1, uint32_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_int64(int64_t *value1, int64_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_uint64(uint64_t *value1, uint64_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_float(float *value1, float *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_double(double *value1, double *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } /* * NON-NUMERIC SYSTEM TYPES */ /* NULL */ int opal_dss_compare_null(char *value1, char *value2, opal_data_type_t type) { return OPAL_EQUAL; } /* BOOL */ int opal_dss_compare_bool(bool *value1, bool *value2, opal_data_type_t type) { if (*value1 && !(*value2)) return OPAL_VALUE1_GREATER; if (*value2 && !(*value1)) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } /* STRING */ int opal_dss_compare_string(char *value1, char *value2, opal_data_type_t type) { if (0 < strcmp(value1, value2)) return OPAL_VALUE2_GREATER; if (0 > strcmp(value1, value2)) return OPAL_VALUE1_GREATER; return OPAL_EQUAL; } /* TIMEVAL */ int opal_dss_compare_timeval(struct timeval *value1, struct timeval *value2, opal_data_type_t type) { if (value1->tv_sec > value2->tv_sec) return OPAL_VALUE1_GREATER; if (value2->tv_sec > value1->tv_sec) return OPAL_VALUE2_GREATER; /* seconds were equal - check usec's */ if (value1->tv_usec > value2->tv_usec) return OPAL_VALUE1_GREATER; if (value2->tv_usec > value1->tv_usec) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } /* TIME */ int opal_dss_compare_time(time_t *value1, time_t *value2, opal_data_type_t type) { if (value1 > value2) return OPAL_VALUE1_GREATER; if (value2 > value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } /* COMPARE FUNCTIONS FOR GENERIC OPAL TYPES */ /* OPAL_DATA_TYPE */ int opal_dss_compare_dt(opal_data_type_t *value1, opal_data_type_t *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } /* OPAL_BYTE_OBJECT */ int opal_dss_compare_byte_object(opal_byte_object_t *value1, opal_byte_object_t *value2, opal_data_type_t type) { int checksum, diff; int32_t i; /* compare the sizes first - bigger size object is "greater than" */ if (value1->size > value2->size) return OPAL_VALUE1_GREATER; if (value2->size > value1->size) return OPAL_VALUE2_GREATER; /* get here if the two sizes are identical - now do a simple checksum-style * calculation to determine "biggest" */ checksum = 0; for (i=0; i < value1->size; i++) { /* protect against overflows */ diff = value1->bytes[i] - value2->bytes[i]; if (INT_MAX-abs(checksum)-abs(diff) < 0) { /* got an overflow condition */ checksum = 0; } checksum += diff; } if (0 > checksum) return OPAL_VALUE2_GREATER; /* sum of value2 bytes was greater */ if (0 < checksum) return OPAL_VALUE1_GREATER; /* of value1 bytes was greater */ return OPAL_EQUAL; /* sum of both value's bytes was identical */ } /* OPAL_PSTAT */ int opal_dss_compare_pstat(opal_pstats_t *value1, opal_pstats_t *value2, opal_data_type_t type) { return OPAL_EQUAL; /* eventually compare field to field */ } /* OPAL_NODE_STAT */ int opal_dss_compare_node_stat(opal_node_stats_t *value1, opal_node_stats_t *value2, opal_data_type_t type) { return OPAL_EQUAL; /* eventually compare field to field */ } /* OPAL_VALUE */ int opal_dss_compare_value(opal_value_t *value1, opal_value_t *value2, opal_data_type_t type) { if (NULL == value1 && NULL == value2) { return OPAL_EQUAL; } if (NULL == value2) { return OPAL_VALUE1_GREATER; } if (NULL == value1) { return OPAL_VALUE2_GREATER; } if (value1->type != value2->type) { opal_output(0, "COMPARE-OPAL-VALUE: INCONSISTENT TYPE %d vs %d", (int)value1->type, (int)value2->type); return OPAL_EQUAL; } switch (value1->type) { case OPAL_BYTE: return opal_dss_compare_byte((char *)&value1->data.byte, (char *)&value2->data.byte, type); case OPAL_STRING: return opal_dss_compare_string(value1->data.string, value2->data.string, type); case OPAL_PID: return opal_dss_compare_pid(&value1->data.pid, &value2->data.pid, type); case OPAL_INT: return opal_dss_compare_int(&value1->data.integer, &value2->data.integer, type); case OPAL_INT8: return opal_dss_compare_int8(&value1->data.int8, &value2->data.int8, type); case OPAL_INT16: return opal_dss_compare_int16(&value1->data.int16, &value2->data.int16, type); case OPAL_INT32: return opal_dss_compare_int32(&value1->data.int32, &value2->data.int32, type); case OPAL_INT64: return opal_dss_compare_int64(&value1->data.int64, &value2->data.int64, type); case OPAL_UINT: return opal_dss_compare_uint(&value1->data.uint, &value2->data.uint, type); case OPAL_UINT8: return opal_dss_compare_uint8(&value1->data.uint8, &value2->data.uint8, type); case OPAL_UINT16: return opal_dss_compare_uint16(&value1->data.uint16, &value2->data.uint16, type); case OPAL_UINT32: return opal_dss_compare_uint32(&value1->data.uint32, &value2->data.uint32, type); case OPAL_UINT64: return opal_dss_compare_uint64(&value1->data.uint64, &value2->data.uint64, type); case OPAL_BYTE_OBJECT: return opal_dss_compare_byte_object(&value1->data.bo, &value2->data.bo, type); case OPAL_SIZE: return opal_dss_compare_size(&value1->data.size, &value2->data.size, type); case OPAL_FLOAT: return opal_dss_compare_float(&value1->data.fval, &value2->data.fval, type); case OPAL_DOUBLE: return opal_dss_compare_double(&value1->data.dval, &value2->data.dval, type); case OPAL_BOOL: return opal_dss_compare_bool(&value1->data.flag, &value2->data.flag, type); case OPAL_TIMEVAL: return opal_dss_compare_timeval(&value1->data.tv, &value2->data.tv, type); case OPAL_NAME: return opal_dss_compare_name(&value1->data.name, &value2->data.name, type); case OPAL_ENVAR: return opal_dss_compare_envar(&value1->data.envar, &value2->data.envar, type); default: opal_output(0, "COMPARE-OPAL-VALUE: UNSUPPORTED TYPE %d", (int)value1->type); return OPAL_EQUAL; } } /* OPAL_BUFFER */ int opal_dss_compare_buffer_contents(opal_buffer_t *value1, opal_buffer_t *value2, opal_data_type_t type) { return OPAL_EQUAL; /* eventually compare bytes in buffers */ } /* OPAL_NAME */ int opal_dss_compare_name(opal_process_name_t *value1, opal_process_name_t *value2, opal_data_type_t type) { if (NULL == value1 && NULL == value2) { return OPAL_EQUAL; } else if (NULL == value1) { return OPAL_VALUE2_GREATER; } else if (NULL == value2) { return OPAL_VALUE1_GREATER; } /* If any of the fields are wildcard, * then we want to just ignore that one field. In the case * of OPAL_NAME_WILDCARD (where ALL of the fields are wildcard), this * will automatically result in OPAL_EQUAL for any name in the other * value - a totally useless result, but consistent in behavior. */ /** check the jobids - if one of them is WILDCARD, then ignore * this field since anything is okay */ if (value1->jobid != OPAL_JOBID_WILDCARD && value2->jobid != OPAL_JOBID_WILDCARD) { if (value1->jobid < value2->jobid) { return OPAL_VALUE2_GREATER; } else if (value1->jobid > value2->jobid) { return OPAL_VALUE1_GREATER; } } /** check the vpids - if one of them is WILDCARD, then ignore * this field since anything is okay */ if (value1->vpid != OPAL_VPID_WILDCARD && value2->vpid != OPAL_VPID_WILDCARD) { if (value1->vpid < value2->vpid) { return OPAL_VALUE2_GREATER; } else if (value1->vpid > value2->vpid) { return OPAL_VALUE1_GREATER; } } /** only way to get here is if all fields are equal or WILDCARD */ return OPAL_EQUAL; } int opal_dss_compare_vpid(opal_vpid_t *value1, opal_vpid_t *value2, opal_data_type_t type) { /** if either value is WILDCARD, then return equal */ if (*value1 == OPAL_VPID_WILDCARD || *value2 == OPAL_VPID_WILDCARD) return OPAL_EQUAL; if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_jobid(opal_jobid_t *value1, opal_jobid_t *value2, opal_data_type_t type) { /** if either value is WILDCARD, then return equal */ if (*value1 == OPAL_JOBID_WILDCARD || *value2 == OPAL_JOBID_WILDCARD) return OPAL_EQUAL; if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_status(int *value1, int *value2, opal_data_type_t type) { if (*value1 > *value2) return OPAL_VALUE1_GREATER; if (*value2 > *value1) return OPAL_VALUE2_GREATER; return OPAL_EQUAL; } int opal_dss_compare_envar(opal_envar_t *value1, opal_envar_t *value2, opal_data_type_t type) { int rc; if (NULL != value1->envar) { if (NULL == value2->envar) { return OPAL_VALUE1_GREATER; } rc = strcmp(value1->envar, value2->envar); if (rc < 0) { return OPAL_VALUE2_GREATER; } else if (0 < rc) { return OPAL_VALUE1_GREATER; } } else if (NULL != value2->envar) { /* we know value1->envar had to be NULL */ return OPAL_VALUE2_GREATER; } /* if both are NULL or are equal, then check value */ if (NULL != value1->value) { if (NULL == value2->value) { return OPAL_VALUE1_GREATER; } rc = strcmp(value1->value, value2->value); if (rc < 0) { return OPAL_VALUE2_GREATER; } else if (0 < rc) { return OPAL_VALUE1_GREATER; } } else if (NULL != value2->value) { /* we know value1->value had to be NULL */ return OPAL_VALUE2_GREATER; } /* finally, check separator */ if (value1->separator < value2->separator) { return OPAL_VALUE2_GREATER; } if (value2->separator < value1->separator) { return OPAL_VALUE1_GREATER; } return OPAL_EQUAL; }