/* * 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. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include "opal/types.h" #include "opal/util/error.h" #include "opal/util/output.h" #include "opal/dss/dss_internal.h" int opal_dss_unpack(opal_buffer_t *buffer, void *dst, int32_t *num_vals, opal_data_type_t type) { int rc, ret; int32_t local_num, n=1; opal_data_type_t local_type; /* check for error */ if (NULL == buffer || NULL == dst || NULL == num_vals) { return OPAL_ERR_BAD_PARAM; } /* if user provides a zero for num_vals, then there is no storage allocated * so return an appropriate error */ if (0 == *num_vals) { return OPAL_ERR_UNPACK_INADEQUATE_SPACE; } /** Unpack the declared number of values * REMINDER: it is possible that the buffer is corrupted and that * the DSS will *think* there is a proper int32_t variable at the * beginning of the unpack region - but that the value is bogus (e.g., just * a byte field in a string array that so happens to have a value that * matches the int32_t data type flag). Therefore, this error check is * NOT completely safe. This is true for ALL unpack functions, not just * int32_t as used here. */ if (OPAL_DSS_BUFFER_FULLY_DESC == buffer->type) { if (OPAL_SUCCESS != ( rc = opal_dss_get_data_type(buffer, &local_type))) { *num_vals = 0; return rc; } if (OPAL_INT32 != local_type) { /* if the length wasn't first, then error */ *num_vals = 0; return OPAL_ERR_UNPACK_FAILURE; } } n=1; if (OPAL_SUCCESS != (rc = opal_dss_unpack_int32(buffer, &local_num, &n, OPAL_INT32))) { *num_vals = 0; return rc; } /** if the storage provided is inadequate, set things up * to unpack as much as we can and to return an error code * indicating that everything was not unpacked - the buffer * is left in a state where it can not be further unpacked. */ if (local_num > *num_vals) { local_num = *num_vals; ret = OPAL_ERR_UNPACK_INADEQUATE_SPACE; } else { /** enough or more than enough storage */ *num_vals = local_num; /** let the user know how many we actually unpacked */ ret = OPAL_SUCCESS; } /** Unpack the value(s) */ if (OPAL_SUCCESS != (rc = opal_dss_unpack_buffer(buffer, dst, &local_num, type))) { *num_vals = 0; ret = rc; } return ret; } int opal_dss_unpack_buffer(opal_buffer_t *buffer, void *dst, int32_t *num_vals, opal_data_type_t type) { int rc; opal_data_type_t local_type; opal_dss_type_info_t *info; OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_buffer( %p, %p, %lu, %d )\n", (void*)buffer, dst, (long unsigned int)*num_vals, (int)type ) ); /** Unpack the declared data type */ if (OPAL_DSS_BUFFER_FULLY_DESC == buffer->type) { if (OPAL_SUCCESS != (rc = opal_dss_get_data_type(buffer, &local_type))) { return rc; } /* if the data types don't match, then return an error */ if (type != local_type) { opal_output(0, "OPAL dss:unpack: got type %d when expecting type %d", local_type, type); return OPAL_ERR_PACK_MISMATCH; } } /* Lookup the unpack 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_UNPACK_FAILURE; } return info->odti_unpack_fn(buffer, dst, num_vals, type); } /* UNPACK GENERIC SYSTEM TYPES */ /* * BOOL */ int opal_dss_unpack_bool(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int ret; opal_data_type_t remote_type; if (OPAL_DSS_BUFFER_FULLY_DESC == buffer->type) { /* see what type was actually packed */ if (OPAL_SUCCESS != (ret = opal_dss_peek_type(buffer, &remote_type))) { return ret; } } else { if (OPAL_SUCCESS != (ret = opal_dss_get_data_type(buffer, &remote_type))) { return ret; } } if (remote_type == DSS_TYPE_BOOL) { /* fast path it if the sizes are the same */ /* Turn around and unpack the real type */ if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, dest, num_vals, DSS_TYPE_BOOL))) { } } else { /* slow path - types are different sizes */ UNPACK_SIZE_MISMATCH(bool, remote_type, ret); } return ret; } /* * INT */ int opal_dss_unpack_int(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int ret; opal_data_type_t remote_type; if (OPAL_DSS_BUFFER_FULLY_DESC == buffer->type) { /* see what type was actually packed */ if (OPAL_SUCCESS != (ret = opal_dss_peek_type(buffer, &remote_type))) { return ret; } } else { if (OPAL_SUCCESS != (ret = opal_dss_get_data_type(buffer, &remote_type))) { return ret; } } if (remote_type == DSS_TYPE_INT) { /* fast path it if the sizes are the same */ /* Turn around and unpack the real type */ if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, dest, num_vals, DSS_TYPE_INT))) { } } else { /* slow path - types are different sizes */ UNPACK_SIZE_MISMATCH(int, remote_type, ret); } return ret; } /* * SIZE_T */ int opal_dss_unpack_sizet(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int ret; opal_data_type_t remote_type; if (OPAL_DSS_BUFFER_FULLY_DESC == buffer->type) { /* see what type was actually packed */ if (OPAL_SUCCESS != (ret = opal_dss_peek_type(buffer, &remote_type))) { return ret; } } else { if (OPAL_SUCCESS != (ret = opal_dss_get_data_type(buffer, &remote_type))) { return ret; } } if (remote_type == DSS_TYPE_SIZE_T) { /* fast path it if the sizes are the same */ /* Turn around and unpack the real type */ if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, dest, num_vals, DSS_TYPE_SIZE_T))) { } } else { /* slow path - types are different sizes */ UNPACK_SIZE_MISMATCH(size_t, remote_type, ret); } return ret; } /* * PID_T */ int opal_dss_unpack_pid(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int ret; opal_data_type_t remote_type; if (OPAL_DSS_BUFFER_FULLY_DESC == buffer->type) { /* see what type was actually packed */ if (OPAL_SUCCESS != (ret = opal_dss_peek_type(buffer, &remote_type))) { return ret; } } else { if (OPAL_SUCCESS != (ret = opal_dss_get_data_type(buffer, &remote_type))) { return ret; } } if (remote_type == DSS_TYPE_PID_T) { /* fast path it if the sizes are the same */ /* Turn around and unpack the real type */ if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, dest, num_vals, DSS_TYPE_PID_T))) { } } else { /* slow path - types are different sizes */ UNPACK_SIZE_MISMATCH(pid_t, remote_type, ret); } return ret; } /* UNPACK FUNCTIONS FOR NON-GENERIC SYSTEM TYPES */ /* * NULL */ int opal_dss_unpack_null(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_null * %d\n", (int)*num_vals ) ); /* check to see if there's enough data in buffer */ if (opal_dss_too_small(buffer, *num_vals)) { return OPAL_ERR_UNPACK_READ_PAST_END_OF_BUFFER; } /* unpack the data */ memcpy(dest, buffer->unpack_ptr, *num_vals); /* update buffer pointer */ buffer->unpack_ptr += *num_vals; return OPAL_SUCCESS; } /* * BYTE, CHAR, INT8 */ int opal_dss_unpack_byte(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_byte * %d\n", (int)*num_vals ) ); /* check to see if there's enough data in buffer */ if (opal_dss_too_small(buffer, *num_vals)) { return OPAL_ERR_UNPACK_READ_PAST_END_OF_BUFFER; } /* unpack the data */ memcpy(dest, buffer->unpack_ptr, *num_vals); /* update buffer pointer */ buffer->unpack_ptr += *num_vals; return OPAL_SUCCESS; } int opal_dss_unpack_int16(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int32_t i; uint16_t tmp, *desttmp = (uint16_t*) dest; OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_int16 * %d\n", (int)*num_vals ) ); /* check to see if there's enough data in buffer */ if (opal_dss_too_small(buffer, (*num_vals)*sizeof(tmp))) { return OPAL_ERR_UNPACK_READ_PAST_END_OF_BUFFER; } /* unpack the data */ for (i = 0; i < (*num_vals); ++i) { memcpy( &(tmp), buffer->unpack_ptr, sizeof(tmp) ); desttmp[i] = ntohs(tmp); buffer->unpack_ptr += sizeof(tmp); } return OPAL_SUCCESS; } int opal_dss_unpack_int32(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int32_t i; uint32_t tmp, *desttmp = (uint32_t*) dest; OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_int32 * %d\n", (int)*num_vals ) ); /* check to see if there's enough data in buffer */ if (opal_dss_too_small(buffer, (*num_vals)*sizeof(tmp))) { return OPAL_ERR_UNPACK_READ_PAST_END_OF_BUFFER; } /* unpack the data */ for (i = 0; i < (*num_vals); ++i) { memcpy( &(tmp), buffer->unpack_ptr, sizeof(tmp) ); desttmp[i] = ntohl(tmp); buffer->unpack_ptr += sizeof(tmp); } return OPAL_SUCCESS; } int opal_dss_unpack_int64(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int32_t i; uint64_t tmp, *desttmp = (uint64_t*) dest; OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_int64 * %d\n", (int)*num_vals ) ); /* check to see if there's enough data in buffer */ if (opal_dss_too_small(buffer, (*num_vals)*sizeof(tmp))) { return OPAL_ERR_UNPACK_READ_PAST_END_OF_BUFFER; } /* unpack the data */ for (i = 0; i < (*num_vals); ++i) { memcpy( &(tmp), buffer->unpack_ptr, sizeof(tmp) ); desttmp[i] = ntoh64(tmp); buffer->unpack_ptr += sizeof(tmp); } return OPAL_SUCCESS; } int opal_dss_unpack_string(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int ret; int32_t i, len, n=1; char **sdest = (char**) dest; for (i = 0; i < (*num_vals); ++i) { if (OPAL_SUCCESS != (ret = opal_dss_unpack_int32(buffer, &len, &n, OPAL_INT32))) { return ret; } if (0 == len) { /* zero-length string - unpack the NULL */ sdest[i] = NULL; } else { sdest[i] = (char*)malloc(len); if (NULL == sdest[i]) { return OPAL_ERR_OUT_OF_RESOURCE; } if (OPAL_SUCCESS != (ret = opal_dss_unpack_byte(buffer, sdest[i], &len, OPAL_BYTE))) { return ret; } } } return OPAL_SUCCESS; } int opal_dss_unpack_float(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int32_t i, n; int64_t tmp[2]; float *desttmp = (float*) dest; int ret; OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_float * %d\n", (int)*num_vals ) ); /* check to see if there's enough data in buffer */ if (opal_dss_too_small(buffer, (*num_vals)*sizeof(float))) { return OPAL_ERR_UNPACK_READ_PAST_END_OF_BUFFER; } /* unpack the data */ for (i = 0; i < (*num_vals); ++i) { n=2; if (OPAL_SUCCESS != (ret = opal_dss_unpack_int64(buffer, tmp, &n, OPAL_INT64))) { return ret; } desttmp[i] = (float)tmp[0] + (float)tmp[1]/1000000.0; } return OPAL_SUCCESS; } int opal_dss_unpack_timeval(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { int32_t i, n; int64_t tmp[2]; struct timeval *desttmp = (struct timeval *) dest; int ret; OPAL_OUTPUT( ( opal_dss_verbose, "opal_dss_unpack_timeval * %d\n", (int)*num_vals ) ); /* check to see if there's enough data in buffer */ if (opal_dss_too_small(buffer, (*num_vals)*sizeof(struct timeval))) { return OPAL_ERR_UNPACK_READ_PAST_END_OF_BUFFER; } /* unpack the data */ for (i = 0; i < (*num_vals); ++i) { n=2; if (OPAL_SUCCESS != (ret = opal_dss_unpack_int64(buffer, tmp, &n, OPAL_INT64))) { return ret; } desttmp[i].tv_sec = tmp[0]; desttmp[i].tv_usec = tmp[1]; } return OPAL_SUCCESS; } /* UNPACK FUNCTIONS FOR GENERIC OPAL TYPES */ /* * OPAL_DATA_TYPE */ int opal_dss_unpack_data_type(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { /* turn around and unpack the real type */ return opal_dss_unpack_buffer(buffer, dest, num_vals, OPAL_DATA_TYPE_T); } /* * OPAL_BYTE_OBJECT */ int opal_dss_unpack_byte_object(opal_buffer_t *buffer, void *dest, int32_t *num, opal_data_type_t type) { int ret; int32_t i, n, m=1; opal_byte_object_t **dbyteptr; dbyteptr = (opal_byte_object_t**)dest; n = *num; for(i=0; isize), &m, OPAL_INT32))) { return ret; } if (0 < dbyteptr[i]->size) { dbyteptr[i]->bytes = (uint8_t*)malloc(dbyteptr[i]->size); if (NULL == dbyteptr[i]->bytes) { return OPAL_ERR_OUT_OF_RESOURCE; } if (OPAL_SUCCESS != (ret = opal_dss_unpack_byte(buffer, (dbyteptr[i]->bytes), &(dbyteptr[i]->size), OPAL_BYTE))) { return ret; } } else { /* be sure to init the bytes pointer to NULL! */ dbyteptr[i]->bytes = NULL; } } return OPAL_SUCCESS; } /* * OPAL_PSTAT */ int opal_dss_unpack_pstat(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { opal_pstats_t **ptr; int32_t i, n, m; int ret; char *cptr; ptr = (opal_pstats_t **) dest; n = *num_vals; for (i = 0; i < n; ++i) { /* allocate the new object */ ptr[i] = OBJ_NEW(opal_pstats_t); if (NULL == ptr[i]) { return OPAL_ERR_OUT_OF_RESOURCE; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &cptr, &m, OPAL_STRING))) { OPAL_ERROR_LOG(ret); return ret; } memmove(ptr[i]->node, cptr, strlen(cptr)); free(cptr); m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->rank, &m, OPAL_INT32))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->pid, &m, OPAL_PID))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &cptr, &m, OPAL_STRING))) { OPAL_ERROR_LOG(ret); return ret; } memmove(ptr[i]->cmd, cptr, strlen(cptr)); free(cptr); m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->state[0], &m, OPAL_BYTE))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->time, &m, OPAL_TIMEVAL))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->priority, &m, OPAL_INT32))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->num_threads, &m, OPAL_INT16))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->vsize, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->rss, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->peak_vsize, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->processor, &m, OPAL_INT16))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->sample_time, &m, OPAL_TIMEVAL))) { OPAL_ERROR_LOG(ret); return ret; } } return OPAL_SUCCESS; } static int unpack_disk_stats(opal_buffer_t *buffer, opal_node_stats_t *ns) { int32_t i, m, n; int ret; opal_diskstats_t *dk; uint64_t i64; /* unpack the number of disk stat objects */ m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &n, &m, OPAL_INT32))) { OPAL_ERROR_LOG(ret); return ret; } /* unpack them */ for (i=0; i < n; i++) { dk = OBJ_NEW(opal_diskstats_t); m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &dk->disk, &m, OPAL_STRING))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->num_reads_completed = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->num_reads_merged = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->num_sectors_read = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->milliseconds_reading = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->num_writes_completed = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->num_writes_merged = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->num_sectors_written = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->milliseconds_writing = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->num_ios_in_progress = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->milliseconds_io = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(dk); return ret; } dk->weighted_milliseconds_io = i64; opal_list_append(&ns->diskstats, &dk->super); } return OPAL_SUCCESS; } static int unpack_net_stats(opal_buffer_t *buffer, opal_node_stats_t *ns) { int32_t i, m, n; int ret; opal_netstats_t *net; uint64_t i64; /* unpack the number of net stat objects */ m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &n, &m, OPAL_INT32))) { OPAL_ERROR_LOG(ret); return ret; } /* unpack them */ for (i=0; i < n; i++) { net = OBJ_NEW(opal_netstats_t); m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &net->interface, &m, OPAL_STRING))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(net); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(net); return ret; } net->num_bytes_recvd = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(net); return ret; } net->num_packets_recvd = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(net); return ret; } net->num_recv_errs = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(net); return ret; } net->num_bytes_sent = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(net); return ret; } net->num_packets_sent = i64; m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &i64, &m, OPAL_UINT64))) { OPAL_ERROR_LOG(ret); OBJ_RELEASE(net); return ret; } net->num_send_errs = i64; opal_list_append(&ns->netstats, &net->super); } return OPAL_SUCCESS; } /* * OPAL_NODE_STAT */ int opal_dss_unpack_node_stat(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { opal_node_stats_t **ptr; int32_t i, n, m; int ret; ptr = (opal_node_stats_t **) dest; n = *num_vals; for (i = 0; i < n; ++i) { /* allocate the new object */ ptr[i] = OBJ_NEW(opal_node_stats_t); if (NULL == ptr[i]) { return OPAL_ERR_OUT_OF_RESOURCE; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->la, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->la5, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->la15, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->total_mem, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->free_mem, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->buffers, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->cached, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->swap_cached, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->swap_total, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->swap_free, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_float(buffer, &ptr[i]->mapped, &m, OPAL_FLOAT))) { OPAL_ERROR_LOG(ret); return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->sample_time, &m, OPAL_TIMEVAL))) { OPAL_ERROR_LOG(ret); return ret; } /* unpack the disk stat objects */ if (OPAL_SUCCESS != (ret = unpack_disk_stats(buffer, ptr[i]))) { OPAL_ERROR_LOG(ret); return ret; } /* unpack the net stat objects */ if (OPAL_SUCCESS != (ret = unpack_net_stats(buffer, ptr[i]))) { OPAL_ERROR_LOG(ret); return ret; } } return OPAL_SUCCESS; } /* * OPAL_VALUE */ int opal_dss_unpack_value(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { opal_value_t **ptr; int32_t i, n, m; int ret; ptr = (opal_value_t **) dest; n = *num_vals; for (i = 0; i < n; ++i) { /* allocate the new object */ ptr[i] = OBJ_NEW(opal_value_t); if (NULL == ptr[i]) { return OPAL_ERR_OUT_OF_RESOURCE; } /* unpack the key and type */ m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_string(buffer, &ptr[i]->key, &m, OPAL_STRING))) { return ret; } m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_data_type(buffer, &ptr[i]->type, &m, OPAL_DATA_TYPE))) { return ret; } /* now unpack the right field */ m=1; switch (ptr[i]->type) { case OPAL_BYTE: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.byte, &m, OPAL_BYTE))) { return ret; } break; case OPAL_STRING: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.string, &m, OPAL_STRING))) { return ret; } break; case OPAL_PID: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.pid, &m, OPAL_PID))) { return ret; } break; case OPAL_INT: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.integer, &m, OPAL_INT))) { return ret; } break; case OPAL_INT8: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.int8, &m, OPAL_INT8))) { return ret; } break; case OPAL_INT16: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.int16, &m, OPAL_INT16))) { return ret; } break; case OPAL_INT32: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.int32, &m, OPAL_INT32))) { return ret; } break; case OPAL_INT64: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.int64, &m, OPAL_INT64))) { return ret; } break; case OPAL_UINT: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.uint, &m, OPAL_UINT))) { return ret; } break; case OPAL_UINT8: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.uint8, &m, OPAL_UINT8))) { return ret; } break; case OPAL_UINT16: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.uint16, &m, OPAL_UINT16))) { return ret; } break; case OPAL_UINT32: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.uint32, &m, OPAL_UINT32))) { return ret; } break; case OPAL_UINT64: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.uint64, &m, OPAL_UINT64))) { return ret; } break; case OPAL_BYTE_OBJECT: /* cannot use byte object unpack as it allocates memory, so unpack object size in bytes */ if (OPAL_SUCCESS != (ret = opal_dss_unpack_int32(buffer, &(ptr[i]->data.bo.size), &m, OPAL_INT32))) { return ret; } if (0 < ptr[i]->data.bo.size) { ptr[i]->data.bo.bytes = (uint8_t*)malloc(ptr[i]->data.bo.size); if (NULL == ptr[i]->data.bo.bytes) { return OPAL_ERR_OUT_OF_RESOURCE; } if (OPAL_SUCCESS != (ret = opal_dss_unpack_byte(buffer, ptr[i]->data.bo.bytes, &(ptr[i]->data.bo.size), OPAL_BYTE))) { return ret; } } else { ptr[i]->data.bo.bytes = NULL; } break; case OPAL_FLOAT: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.fval, &m, OPAL_FLOAT))) { return ret; } break; case OPAL_TIMEVAL: if (OPAL_SUCCESS != (ret = opal_dss_unpack_buffer(buffer, &ptr[i]->data.tv, &m, OPAL_TIMEVAL))) { return ret; } break; default: opal_output(0, "PACK-OPAL-VALUE: UNSUPPORTED TYPE"); return OPAL_ERROR; } } return OPAL_SUCCESS; } /* * OPAL_BUFFER */ int opal_dss_unpack_buffer_contents(opal_buffer_t *buffer, void *dest, int32_t *num_vals, opal_data_type_t type) { opal_buffer_t **ptr; int32_t i, n, m; int ret; size_t nbytes; ptr = (opal_buffer_t **) dest; n = *num_vals; for (i = 0; i < n; ++i) { /* allocate the new object */ ptr[i] = OBJ_NEW(opal_buffer_t); if (NULL == ptr[i]) { return OPAL_ERR_OUT_OF_RESOURCE; } /* unpack the number of bytes */ m=1; if (OPAL_SUCCESS != (ret = opal_dss_unpack_sizet(buffer, &nbytes, &m, OPAL_SIZE))) { return ret; } /* setup the buffer's data region */ if (0 < nbytes) { ptr[i]->base_ptr = (char*)malloc(nbytes); } /* unpack the bytes */ m=nbytes; if (OPAL_SUCCESS != (ret = opal_dss_unpack_byte(buffer, ptr[i]->base_ptr, &m, OPAL_BYTE))) { return ret; } /* fill-in the metadata */ ptr[i]->pack_ptr = ptr[i]->base_ptr + m; ptr[i]->unpack_ptr = ptr[i]->base_ptr; ptr[i]->bytes_allocated = nbytes; ptr[i]->bytes_used = m; } return OPAL_SUCCESS; }