/* * 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 Intel, Inc. All rights reserved. * Copyright (c) 2014 Research Organization for Information Science * and Technology (RIST). All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include "opal_stdint.h" #include #include "opal/dss/dss_internal.h" int opal_dss_print(char **output, char *prefix, void *src, opal_data_type_t type) { opal_dss_type_info_t *info; /* check for error */ if (NULL == output) { return OPAL_ERR_BAD_PARAM; } /* Lookup the print 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_print_fn(output, prefix, src, type); } /* * STANDARD PRINT FUNCTIONS FOR SYSTEM TYPES */ int opal_dss_print_byte(char **output, char *prefix, uint8_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_BYTE\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_BYTE\tValue: %x", prefix, *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_string(char **output, char *prefix, char *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_STRING\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_STRING\tValue: %s", prefx, src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_size(char **output, char *prefix, size_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_SIZE\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_SIZE\tValue: %lu", prefx, (unsigned long) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_pid(char **output, char *prefix, pid_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_PID\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_PID\tValue: %lu", prefx, (unsigned long) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_bool(char **output, char *prefix, bool *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_BOOL\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_BOOL\tValue: %s", prefx, *src ? "TRUE" : "FALSE"); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_int(char **output, char *prefix, int *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_INT\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_INT\tValue: %ld", prefx, (long) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_uint(char **output, char *prefix, int *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_UINT\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_UINT\tValue: %lu", prefx, (unsigned long) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_uint8(char **output, char *prefix, uint8_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_UINT8\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_UINT8\tValue: %u", prefx, (unsigned int) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_uint16(char **output, char *prefix, uint16_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_UINT16\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_UINT16\tValue: %u", prefx, (unsigned int) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_uint32(char **output, char *prefix, uint32_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_UINT32\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_UINT32\tValue: %u", prefx, (unsigned int) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_int8(char **output, char *prefix, int8_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_INT8\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_INT8\tValue: %d", prefx, (int) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_int16(char **output, char *prefix, int16_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_INT16\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_INT16\tValue: %d", prefx, (int) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_int32(char **output, char *prefix, int32_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_INT32\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_INT32\tValue: %d", prefx, (int) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_uint64(char **output, char *prefix, #ifdef HAVE_INT64_T uint64_t *src, #else void *src, #endif /* HAVE_INT64_T */ opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_UINT64\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } #ifdef HAVE_INT64_T asprintf(output, "%sData type: OPAL_UINT64\tValue: %lu", prefx, (unsigned long) *src); #else asprintf(output, "%sData type: OPAL_UINT64\tValue: unsupported", prefx); #endif /* HAVE_INT64_T */ if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_int64(char **output, char *prefix, #ifdef HAVE_INT64_T int64_t *src, #else void *src, #endif /* HAVE_INT64_T */ opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_INT64\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } #ifdef HAVE_INT64_T asprintf(output, "%sData type: OPAL_INT64\tValue: %ld", prefx, (long) *src); #else asprintf(output, "%sData type: OPAL_INT64\tValue: unsupported", prefx); #endif /* HAVE_INT64_T */ if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_float(char **output, char *prefix, float *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_FLOAT\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_FLOAT\tValue: %f", prefx, *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_double(char **output, char *prefix, double *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_DOUBLE\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_DOUBLE\tValue: %f", prefx, *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_time(char **output, char *prefix, time_t *src, opal_data_type_t type) { char *prefx; char *t; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_TIME\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } t = ctime(src); t[strlen(t)-1] = '\0'; // remove trailing newline asprintf(output, "%sData type: OPAL_TIME\tValue: %s", prefx, t); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_timeval(char **output, char *prefix, struct timeval *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_TIMEVAL\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_TIMEVAL\tValue: %ld.%06ld", prefx, (long)src->tv_sec, (long)src->tv_usec); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_null(char **output, char *prefix, void *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_NULL\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_NULL", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } /* PRINT FUNCTIONS FOR GENERIC OPAL TYPES */ /* * OPAL_DATA_TYPE */ int opal_dss_print_data_type(char **output, char *prefix, opal_data_type_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_DATA_TYPE\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_DATA_TYPE\tValue: %lu", prefx, (unsigned long) *src); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } /* * OPAL_BYTE_OBJECT */ int opal_dss_print_byte_object(char **output, char *prefix, opal_byte_object_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_BYTE_OBJECT\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_BYTE_OBJECT\tSize: %lu", prefx, (unsigned long) src->size); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } /* * OPAL_PSTAT */ int opal_dss_print_pstat(char **output, char *prefix, opal_pstats_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_PSTATS\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sOPAL_PSTATS SAMPLED AT: %ld.%06ld\n%snode: %s rank: %d pid: %d cmd: %s state: %c pri: %d #threads: %d Processor: %d\n" "%s\ttime: %ld.%06ld cpu: %5.2f VMsize: %8.2f PeakVMSize: %8.2f RSS: %8.2f\n", prefx, (long)src->sample_time.tv_sec, (long)src->sample_time.tv_usec, prefx, src->node, src->rank, src->pid, src->cmd, src->state[0], src->priority, src->num_threads, src->processor, prefx, (long)src->time.tv_sec, (long)src->time.tv_usec, src->percent_cpu, src->vsize, src->peak_vsize, src->rss); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } /* * OPAL_NODE_STAT */ int opal_dss_print_node_stat(char **output, char *prefix, opal_node_stats_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_NODE_STATS\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sOPAL_NODE_STATS SAMPLED AT: %ld.%06ld\n%sTotal Mem: %5.2f Free Mem: %5.2f Buffers: %5.2f Cached: %5.2f\n" "%sSwapCached: %5.2f SwapTotal: %5.2f SwapFree: %5.2f Mapped: %5.2f\n" "%s\tla: %5.2f\tla5: %5.2f\tla15: %5.2f\n", prefx, (long)src->sample_time.tv_sec, (long)src->sample_time.tv_usec, prefx, src->total_mem, src->free_mem, src->buffers, src->cached, prefx, src->swap_cached, src->swap_total, src->swap_free, src->mapped, prefx, src->la, src->la5, src->la15); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } /* * OPAL_VALUE */ int opal_dss_print_value(char **output, char *prefix, opal_value_t *src, opal_data_type_t type) { char *prefx, *t2; int i; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_VALUE\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } switch (src->type) { case OPAL_BOOL: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_BOOL\tKey: %s\tValue: %s", prefx, src->key, src->data.flag ? "true" : "false"); break; case OPAL_BYTE: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_BYTE\tKey: %s\tValue: %x", prefx, src->key, src->data.byte); break; case OPAL_STRING: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_STRING\tKey: %s\tValue: %s", prefx, src->key, src->data.string); break; case OPAL_SIZE: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_SIZE\tKey: %s\tValue: %lu", prefx, src->key, (unsigned long)src->data.size); break; case OPAL_PID: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_PID\tKey: %s\tValue: %lu", prefx, src->key, (unsigned long)src->data.pid); break; case OPAL_INT: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT\tKey: %s\tValue: %d", prefx, src->key, src->data.integer); break; case OPAL_INT8: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT8\tKey: %s\tValue: %d", prefx, src->key, (int)src->data.int8); break; case OPAL_INT16: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT16\tKey: %s\tValue: %d", prefx, src->key, (int)src->data.int16); break; case OPAL_INT32: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT32\tKey: %s\tValue: %d", prefx, src->key, src->data.int32); break; case OPAL_INT64: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT64\tKey: %s\tValue: %ld", prefx, src->key, (long)src->data.int64); break; case OPAL_UINT: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT\tKey: %s\tValue: %u", prefx, src->key, src->data.uint); break; case OPAL_UINT8: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT8\tKey: %s\tValue: %u", prefx, src->key, (unsigned int)src->data.uint8); break; case OPAL_UINT16: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT16\tKey: %s\tValue: %u", prefx, src->key, (unsigned int)src->data.uint16); break; case OPAL_UINT32: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT32\tKey: %s\tValue: %u", prefx, src->key, src->data.uint32); break; case OPAL_UINT64: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT64\tKey: %s\tValue: %lu", prefx, src->key, (unsigned long)src->data.uint64); break; case OPAL_FLOAT: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_FLOAT\tKey: %s\tValue: %f", prefx, src->key, src->data.fval); break; case OPAL_DOUBLE: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_DOUBLE\tKey: %s\tValue: %f", prefx, src->key, src->data.dval); break; case OPAL_BYTE_OBJECT: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_BYTE_OBJECT\tKey: %s\tData: %s\tSize: %lu", prefx, src->key, (NULL == src->data.bo.bytes) ? "NULL" : "NON-NULL", (unsigned long)src->data.bo.size); break; case OPAL_TIMEVAL: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_TIMEVAL\tKey: %s\tValue: %ld.%06ld", prefx, src->key, (long)src->data.tv.tv_sec, (long)src->data.tv.tv_usec); break; case OPAL_PTR: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_PTR\tKey: %s", prefx, src->key); break; case OPAL_FLOAT_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_FLOAT_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.fval_array.size); for (i = 0; i < src->data.fval_array.size; i++) { asprintf(&t2, "%s\n%s\t%f", *output, prefx, src->data.fval_array.data[i]); free(*output); *output = t2; } break; case OPAL_DOUBLE_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_DOUBLE_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.dval_array.size); for (i = 0; i < src->data.dval_array.size; i++) { asprintf(&t2, "%s\n%s\t%f", *output, prefx, src->data.dval_array.data[i]); free(*output); *output = t2; } break; case OPAL_STRING_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_STRING_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.string_array.size); for (i = 0; i < src->data.string_array.size; i++) { asprintf(&t2, "%s\n%s\t%s", *output, prefx, src->data.string_array.data[i]); free(*output); *output = t2; } break; case OPAL_BOOL_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_BOOL_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.flag_array.size); for (i = 0; i < src->data.flag_array.size; i++) { asprintf(&t2, "%s\n%s\t%s", *output, prefx, src->data.flag_array.data[i] ? "true" : "false"); free(*output); *output = t2; } break; case OPAL_SIZE_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_SIZE_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.size_array.size); for (i = 0; i < src->data.size_array.size; i++) { asprintf(&t2, "%s\n%s\t%lu", *output, prefx, (unsigned long)src->data.size_array.data[i]); free(*output); *output = t2; } break; case OPAL_BYTE_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_BYTE_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.byte_array.size); for (i = 0; i < src->data.byte_array.size; i++) { asprintf(&t2, "%s\n%s\t%x", *output, prefx, (uint8_t)src->data.byte_array.data[i]); free(*output); *output = t2; } break; case OPAL_INT_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.integer_array.size); for (i = 0; i < src->data.integer_array.size; i++) { asprintf(&t2, "%s\n%s\t%d", *output, prefx, src->data.integer_array.data[i]); free(*output); *output = t2; } break; case OPAL_INT8_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT8_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.int8_array.size); for (i = 0; i < src->data.int8_array.size; i++) { asprintf(&t2, "%s\n%s\t%d", *output, prefx, (int)src->data.int8_array.data[i]); free(*output); *output = t2; } break; case OPAL_INT16_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT16_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.int16_array.size); for (i = 0; i < src->data.int16_array.size; i++) { asprintf(&t2, "%s\n%s\t%d", *output, prefx, (int)src->data.int16_array.data[i]); free(*output); *output = t2; } break; case OPAL_INT32_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT32_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.int32_array.size); for (i = 0; i < src->data.int32_array.size; i++) { asprintf(&t2, "%s\n%s\t%d", *output, prefx, src->data.int32_array.data[i]); free(*output); *output = t2; } break; case OPAL_INT64_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_INT64_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.int64_array.size); for (i = 0; i < src->data.int64_array.size; i++) { asprintf(&t2, "%s\n%s\t%ld", *output, prefx, (long)src->data.int64_array.data[i]); free(*output); *output = t2; } break; case OPAL_UINT_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.uint_array.size); for (i = 0; i < src->data.uint_array.size; i++) { asprintf(&t2, "%s\n%s\t%u", *output, prefx, src->data.uint_array.data[i]); free(*output); *output = t2; } break; case OPAL_UINT8_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT8_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.uint8_array.size); for (i = 0; i < src->data.uint8_array.size; i++) { asprintf(&t2, "%s\n%s\t%u", *output, prefx, (unsigned int)src->data.uint8_array.data[i]); free(*output); *output = t2; } break; case OPAL_UINT16_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT16_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.uint16_array.size); for (i = 0; i < src->data.uint16_array.size; i++) { asprintf(&t2, "%s\n%s\t%u", *output, prefx, (unsigned int)src->data.uint16_array.data[i]); free(*output); *output = t2; } break; case OPAL_UINT32_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT32_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.uint32_array.size); for (i = 0; i < src->data.uint32_array.size; i++) { asprintf(&t2, "%s\n%s\t%u", *output, prefx, (unsigned int)src->data.uint32_array.data[i]); free(*output); *output = t2; } break; case OPAL_UINT64_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_UINT64_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.uint64_array.size); for (i = 0; i < src->data.uint64_array.size; i++) { asprintf(&t2, "%s\n%s\t%lu", *output, prefx, (unsigned long)src->data.uint64_array.data[i]); free(*output); *output = t2; } break; case OPAL_BYTE_OBJECT_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_BYTE_OBJECT_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.bo_array.size); for (i = 0; i < src->data.bo_array.size; i++) { asprintf(&t2, "%s\n%s\tData: %s\tSize: %lu ", *output, prefx, (NULL == src->data.bo_array.data[i].bytes) ? "NULL" : "NON-NULL", (unsigned long)src->data.bo_array.data[i].size); free(*output); *output = t2; } break; case OPAL_PID_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_PID_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.pid_array.size); for (i = 0; i < src->data.pid_array.size; i++) { asprintf(&t2, "%s\n%s\t%u", *output, prefx, (unsigned int)src->data.pid_array.data[i]); free(*output); *output = t2; } break; case OPAL_TIMEVAL_ARRAY: asprintf(output, "%sOPAL_VALUE: Data type: OPAL_TIMEVAL_ARRAY\tKey: %s \tSIZE: %d \tDATA: ", prefx, src->key, src->data.tv_array.size); for (i = 0; i < src->data.tv_array.size; i++) { asprintf(&t2, "%s\n%s\t%ld.%06ld", *output, prefx, (long)src->data.tv_array.data[i].tv_sec, (long)src->data.tv_array.data[i].tv_usec); free(*output); *output = t2; } break; default: asprintf(output, "%sOPAL_VALUE: Data type: UNKNOWN\tKey: %s\tValue: UNPRINTABLE", prefx, src->key); break; } if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_buffer_contents(char **output, char *prefix, opal_buffer_t *src, opal_data_type_t type) { return OPAL_SUCCESS; } /* * NAME */ int opal_dss_print_name(char **output, char *prefix, opal_process_name_t *name, opal_data_type_t type) { /* set default result */ *output = NULL; if (NULL == name) { asprintf(output, "%sData type: ORTE_PROCESS_NAME\tData Value: NULL", (NULL == prefix ? " " : prefix)); } else { asprintf(output, "%sData type: ORTE_PROCESS_NAME\tData Value: [%d,%d]", (NULL == prefix ? " " : prefix), name->jobid, name->vpid); } return OPAL_SUCCESS; } int opal_dss_print_jobid(char **output, char *prefix, opal_process_name_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_JOBID\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_JOBID\tValue: %s", prefx, opal_jobid_print(src->jobid)); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } int opal_dss_print_vpid(char **output, char *prefix, opal_process_name_t *src, opal_data_type_t type) { char *prefx; /* deal with NULL prefix */ if (NULL == prefix) asprintf(&prefx, " "); else prefx = prefix; /* if src is NULL, just print data type and return */ if (NULL == src) { asprintf(output, "%sData type: OPAL_VPID\tValue: NULL pointer", prefx); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; } asprintf(output, "%sData type: OPAL_VPID\tValue: %s", prefx, opal_vpid_print(src->vpid)); if (prefx != prefix) { free(prefx); } return OPAL_SUCCESS; }