/** handles requests for the nsVacmAccessTable table */ int nsVacmAccessTable_handler(netsnmp_mib_handler *handler, netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo, netsnmp_request_info *requests) { netsnmp_request_info *request; netsnmp_table_request_info *table_info; netsnmp_variable_list *idx; struct vacm_accessEntry *entry; char atype[20]; int viewIdx, ret; char *gName, *cPrefix; int model, level; switch (reqinfo->mode) { /* * Read-support (also covers GetNext requests) */ case MODE_GET: for (request = requests; request; request = request->next) { entry = (struct vacm_accessEntry *) netsnmp_extract_iterator_context(request); table_info = netsnmp_extract_table_info(request); /* Extract the authType token from the list of indexes */ idx = table_info->indexes->next_variable->next_variable->next_variable->next_variable; memset(atype, 0, sizeof(atype)); memcpy(atype, (char *)idx->val.string, idx->val_len); viewIdx = se_find_value_in_slist(VACM_VIEW_ENUM_NAME, atype); DEBUGMSGTL(("nsVacm", "GET %s (%d)\n", idx->val.string, viewIdx)); if (!entry || viewIdx < 0) continue; switch (table_info->colnum) { case COLUMN_NSVACMCONTEXTMATCH: snmp_set_var_typed_integer(request->requestvb, ASN_INTEGER, entry->contextMatch); break; case COLUMN_NSVACMVIEWNAME: snmp_set_var_typed_value(request->requestvb, ASN_OCTET_STR, (u_char *)entry->views[ viewIdx ], strlen(entry->views[ viewIdx ])); break; case COLUMN_VACMACCESSSTORAGETYPE: snmp_set_var_typed_integer(request->requestvb, ASN_INTEGER, entry->storageType); break; case COLUMN_NSVACMACCESSSTATUS: snmp_set_var_typed_integer(request->requestvb, ASN_INTEGER, entry->status); break; } } break; #ifndef NETSNMP_NO_WRITE_SUPPORT /* * Write-support */ case MODE_SET_RESERVE1: for (request = requests; request; request = request->next) { entry = (struct vacm_accessEntry *) netsnmp_extract_iterator_context(request); table_info = netsnmp_extract_table_info(request); ret = SNMP_ERR_NOERROR; switch (table_info->colnum) { case COLUMN_NSVACMCONTEXTMATCH: ret = netsnmp_check_vb_int_range(request->requestvb, 1, 2); break; case COLUMN_NSVACMVIEWNAME: ret = netsnmp_check_vb_type_and_max_size(request->requestvb, ASN_OCTET_STR, VACM_MAX_STRING); break; case COLUMN_VACMACCESSSTORAGETYPE: ret = netsnmp_check_vb_storagetype(request->requestvb, (/*entry ? entry->storageType :*/ SNMP_STORAGE_NONE)); break; case COLUMN_NSVACMACCESSSTATUS: /* * The usual 'check_vb_rowstatus' call is too simplistic * to be used here. Because we're implementing a table * within an existing table, it's quite possible for a * the vacmAccessTable entry to exist, even if this is * a "new" nsVacmAccessEntry. * * We can check that the value being assigned is suitable * for a RowStatus syntax object, but the transition * checks need to be done explicitly. */ ret = netsnmp_check_vb_rowstatus_value(request->requestvb); if ( ret != SNMP_ERR_NOERROR ) break; /* * Extract the authType token from the list of indexes */ idx = table_info->indexes->next_variable->next_variable->next_variable->next_variable; memset(atype, 0, sizeof(atype)); memcpy(atype, (char *)idx->val.string, idx->val_len); viewIdx = se_find_value_in_slist(VACM_VIEW_ENUM_NAME, atype); if ( viewIdx < 0 ) { ret = SNMP_ERR_NOCREATION; break; } switch ( *request->requestvb->val.integer ) { case RS_ACTIVE: case RS_NOTINSERVICE: /* Check that this particular view is already set */ if ( !entry || !entry->views[viewIdx][0] ) ret = SNMP_ERR_INCONSISTENTVALUE; break; case RS_CREATEANDWAIT: case RS_CREATEANDGO: /* Check that this particular view is not yet set */ if ( entry && entry->views[viewIdx][0] ) ret = SNMP_ERR_INCONSISTENTVALUE; break; } break; } /* switch(colnum) */ if ( ret != SNMP_ERR_NOERROR ) { netsnmp_set_request_error(reqinfo, request, ret); return SNMP_ERR_NOERROR; } } break; case MODE_SET_RESERVE2: for (request = requests; request; request = request->next) { entry = (struct vacm_accessEntry *) netsnmp_extract_iterator_context(request); table_info = netsnmp_extract_table_info(request); switch (table_info->colnum) { case COLUMN_NSVACMACCESSSTATUS: switch (*request->requestvb->val.integer) { case RS_CREATEANDGO: case RS_CREATEANDWAIT: if (!entry) { idx = table_info->indexes; gName = (char*)idx->val.string; idx = idx->next_variable; cPrefix = (char*)idx->val.string; idx = idx->next_variable; model = *idx->val.integer; idx = idx->next_variable; level = *idx->val.integer; entry = vacm_createAccessEntry( gName, cPrefix, model, level ); entry->storageType = ST_NONVOLATILE; netsnmp_insert_iterator_context(request, (void*)entry); } } } } break; case MODE_SET_FREE: case MODE_SET_UNDO: /* XXX - TODO */ break; case MODE_SET_ACTION: /* ??? Empty ??? */ break; case MODE_SET_COMMIT: for (request = requests; request; request = request->next) { entry = (struct vacm_accessEntry *) netsnmp_extract_iterator_context(request); table_info = netsnmp_extract_table_info(request); if ( !entry ) continue; /* Shouldn't happen */ /* Extract the authType token from the list of indexes */ idx = table_info->indexes->next_variable->next_variable->next_variable->next_variable; memset(atype, 0, sizeof(atype)); memcpy(atype, (char *)idx->val.string, idx->val_len); viewIdx = se_find_value_in_slist(VACM_VIEW_ENUM_NAME, atype); if (viewIdx < 0) continue; switch (table_info->colnum) { case COLUMN_NSVACMCONTEXTMATCH: entry->contextMatch = *request->requestvb->val.integer; break; case COLUMN_NSVACMVIEWNAME: memset( entry->views[viewIdx], 0, VACMSTRINGLEN ); memcpy( entry->views[viewIdx], request->requestvb->val.string, request->requestvb->val_len); break; case COLUMN_VACMACCESSSTORAGETYPE: entry->storageType = *request->requestvb->val.integer; break; case COLUMN_NSVACMACCESSSTATUS: switch (*request->requestvb->val.integer) { case RS_DESTROY: memset( entry->views[viewIdx], 0, VACMSTRINGLEN ); break; } break; } } break; #endif /* !NETSNMP_NO_WRITE_SUPPORT */ } return SNMP_ERR_NOERROR; }
/** handles requests for the tlstmCertToTSNTable table */ static int tlstmCertToTSNTable_handler(netsnmp_mib_handler *handler, netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo, netsnmp_request_info *requests) { oid tsnm[] = { SNMP_TLS_TM_BASE, 1, 1, 0 }; static const int tsnm_pos = OID_LENGTH(tsnm) - 1; netsnmp_request_info *request = NULL; netsnmp_table_request_info *info; netsnmp_tdata *table; netsnmp_tdata_row *row; certToTSN_entry *entry; int ret = SNMP_ERR_NOERROR; DEBUGMSGTL(("tlstmCertToSN:handler", "Processing request (mode %s (%d))\n", se_find_label_in_slist("agent_mode", reqinfo->mode), reqinfo->mode)); switch (reqinfo->mode) { /** ######################################################### GET ##### * * Read-support (also covers GetNext requests) */ case MODE_GET: for (request = requests; request; request = request->next) { if (request->processed) continue; entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); info = netsnmp_extract_table_info(request); netsnmp_assert(entry && info); switch (info->colnum) { case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT: { /* * build SnmpTLSFingerprint */ u_char bin[42], *ptr = bin; size_t len = sizeof(bin); int rc; rc = netsnmp_tls_fingerprint_build(entry->hashType, entry->fingerprint, &ptr, &len, 0); if (SNMPERR_SUCCESS != rc) netsnmp_set_request_error(reqinfo, request, SNMP_ERR_GENERR); else snmp_set_var_typed_value(request->requestvb, ASN_OCTET_STR, bin, len); } break; /* case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT */ case COL_SNMPTLSTMCERTTOTSN_MAPTYPE: tsnm[tsnm_pos] = entry->mapType; snmp_set_var_typed_value(request->requestvb, ASN_OBJECT_ID, tsnm, sizeof(tsnm)); break; /* case COL_SNMPTLSTMCERTTOTSN_MAPTYPE */ case COL_SNMPTLSTMCERTTOTSN_DATA: snmp_set_var_typed_value(request->requestvb, ASN_OCTET_STR, entry->data, entry->data_len); break; /* case COL_SNMPTLSTMCERTTOTSN_DATA */ case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE: snmp_set_var_typed_integer(request->requestvb, ASN_INTEGER, entry->storageType); break; /* case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE */ case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS: snmp_set_var_typed_integer(request->requestvb, ASN_INTEGER, entry->rowStatus); break; /* case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS */ default: netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT); break; } /* switch colnum */ } /* for requests */ break; /* case MODE_GET */ /* * Write-support */ /** #################################################### RESERVE1 ##### * * In RESERVE1 we are just checking basic ASN.1 size/type restrictions. * You probably don't need to change any of this code. Don't change any * of the column values here. Save that for the ACTION phase. * * The next phase is RESERVE2 or FREE. */ case MODE_SET_RESERVE1: for (request = requests; request; request = request->next) { netsnmp_assert(request->processed == 0); entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); info = netsnmp_extract_table_info(request); if ((NULL != entry) && (ST_READONLY == entry->storageType)) { ret = SNMP_ERR_NOTWRITABLE; break; } switch (info->colnum) { case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT: ret = netsnmp_check_vb_type_and_max_size (request->requestvb, ASN_OCTET_STR, sizeof(entry->fingerprint)); /** check len/algorithm MIB requirements */ if (ret == SNMP_ERR_NOERROR) ret = netsnmp_cert_check_vb_fingerprint(request->requestvb); break; /* case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT */ case COL_SNMPTLSTMCERTTOTSN_MAPTYPE: ret = netsnmp_check_vb_type_and_max_size (request->requestvb, ASN_OBJECT_ID, SNMPTLSTMCERTTOTSN_MAPTYPE_MAX_SIZE); if (ret == SNMP_ERR_NOERROR) { if (_oid2type(request->requestvb->val.objid, request->requestvb->val_len) > TSNM_tlstmCert_MAX) ret = SNMP_ERR_WRONGVALUE; } break; /* case COL_SNMPTLSTMCERTTOTSN_MAPTYPE */ case COL_SNMPTLSTMCERTTOTSN_DATA: ret = netsnmp_check_vb_type_and_max_size (request->requestvb, ASN_OCTET_STR, sizeof(entry->data)); break; /* case COL_SNMPTLSTMCERTTOTSN_DATA */ case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE: ret = netsnmp_check_vb_storagetype (request->requestvb,(entry ? entry->storageType : ST_NONE)); break; /* case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE */ case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS: ret = netsnmp_check_vb_rowstatus_with_storagetype (request->requestvb, (entry ? entry->rowStatus :RS_NONEXISTENT), (entry ? entry->storageType :ST_NONE)); break; /* case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS */ default: ret = SNMP_ERR_NOTWRITABLE; } /* switch colnum */ if (ret != SNMP_ERR_NOERROR) break; } /* for requests */ break; /* case MODE_SET_RESERVE1 */ /** #################################################### RESERVE2 ##### * * RESERVE2 is for checking additional restrictions from the MIB. * Since these restrictions are often in the description of the object, * mib2c can't generate code. It's possible that you need to add * additional checks here. However, don't change any of the column * values here. Save that for the ACTION phase. * * The next phase is ACTION or FREE. */ case MODE_SET_RESERVE2: for (request = requests; request; request = request->next) { netsnmp_assert(request->processed == 0); entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); table = netsnmp_tdata_extract_table(request); info = netsnmp_extract_table_info(request); /* * if no row, create one */ if (!entry) { row = tlstmCertToTSNTable_createEntry (table,*info->indexes->val.integer); if (!row) { ret = SNMP_ERR_RESOURCEUNAVAILABLE; break; } entry = row->data; _allocUndo(entry); if (!entry->undo) { tlstmCertToTSNTable_removeEntry(table, row); row = NULL; ret = SNMP_ERR_RESOURCEUNAVAILABLE; break; } entry->undo->fate = FATE_NEWLY_CREATED; /** associate row with requests */ netsnmp_insert_tdata_row(request, row); } /** allocate undo structure, if needed */ if (!entry->undo) { _allocUndo(entry); if (!entry->undo) { ret = SNMP_ERR_RESOURCEUNAVAILABLE; break; } } /* * save request ptr for column. if we already * have a value, bail. */ if (entry->undo->req[info->colnum]) { DEBUGMSGT(("tlstmCertToSN:reserve2", "multiple sets to col %d in request\n", info->colnum)); if (FATE_NEWLY_CREATED == entry->undo->fate) ret = SNMP_ERR_INCONSISTENTNAME; else ret = SNMP_ERR_INCONSISTENTVALUE; break; } entry->undo->req[info->colnum] = request; if (ret != SNMP_ERR_NOERROR) break; } /* for requests */ if (ret == SNMP_ERR_NOERROR) { /** make sure rowstatus is used to create rows */ for (request = requests; request; request = request->next) { if (request->processed) continue; entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); if ((entry->undo->fate != FATE_NEWLY_CREATED) || (entry->undo->req[COL_SNMPTLSTMCERTTOTSN_ROWSTATUS])) continue; ret = SNMP_ERR_INCONSISTENTNAME; break; } /* creation for requests */ } /* no error */ break; /* case MODE_SET_RESERVE2 */ /** ######################################################## FREE ##### * * FREE is for cleaning up after a failed request (during either * RESERVE1 or RESERVE2). So any allocated resources need to be * released. * * This the final phase for this path in the state machine. */ case MODE_SET_FREE: /* * release undo resources * remove any newly created rows */ for (request = requests; request; request = request->next) { table = netsnmp_tdata_extract_table(request); row = netsnmp_tdata_extract_row(request); entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); if (!entry || !entry->undo) continue; /** disassociate row with requests */ netsnmp_remove_tdata_row(request, row); if (FATE_NEWLY_CREATED == entry->undo->fate) tlstmCertToTSNTable_removeEntry(table, row); else _freeUndo(entry); } break; /* case MODE_SET_FREE */ /** ###################################################### ACTION ##### * * In the ACTION phase, we perform any sets that can be undone. * (Save anything that can't be undone for the COMMIT phase.) * * After individual columns have been done, you should check that the * row as a whole is consistent. * * The next phase is UNDO or COMMIT. */ case MODE_SET_ACTION: for (request = requests; request; request = request->next) { entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); info = netsnmp_extract_table_info(request); /** reserve2 should enforce this */ netsnmp_assert(request == entry->undo->req[info->colnum]); /* * for each col, save old value and the set new value */ switch (info->colnum) { case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT: { u_char *tmp = (u_char*)entry->fingerprint; u_int size = sizeof(entry->fingerprint); netsnmp_variable_list *vb = request->requestvb; memcpy(entry->undo->fingerprint, entry->fingerprint, sizeof(entry->fingerprint)); entry->undo->fingerprint_len = entry->fingerprint_len; entry->undo->hashType = entry->hashType; memset(entry->fingerprint, 0, sizeof(entry->fingerprint)); (void)netsnmp_tls_fingerprint_parse(vb->val.string, vb->val_len, (char**)&tmp, &size, 0, &entry->hashType); entry->fingerprint_len = size; if (0 == entry->fingerprint_len) ret = SNMP_ERR_GENERR; } break; /* case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT */ case COL_SNMPTLSTMCERTTOTSN_MAPTYPE: entry->undo->mapType = entry->mapType; entry->mapType = _oid2type(request->requestvb->val.objid, request->requestvb->val_len); break; /* case COL_SNMPTLSTMCERTTOTSN_MAPTYPE */ case COL_SNMPTLSTMCERTTOTSN_DATA: memcpy(entry->undo->data, entry->data, sizeof(entry->data)); entry->undo->data_len = entry->data_len; memset(entry->data, 0, sizeof(entry->data)); memcpy(entry->data, request->requestvb->val.string, request->requestvb->val_len); entry->data_len = request->requestvb->val_len; break; /* case COL_SNMPTLSTMCERTTOTSN_DATA */ case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE: entry->undo->storageType = entry->storageType; entry->storageType = *request->requestvb->val.integer; break; /* case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE */ case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS: entry->undo->rowStatus = entry->rowStatus; entry->rowStatus = *request->requestvb->val.integer; break; /* case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS */ } /* switch colnum */ } /* set values for requests */ if (ret != SNMP_ERR_NOERROR) break; /* skip consistency if we've already got error */ /* * All columns now have their final values set. check the * internal consistency of each row. */ for (request = requests; request; request = request->next) { entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); info = netsnmp_extract_table_info(request); if (entry->undo->is_consistent != -1) continue; /* already checked */ /** assume consistency */ entry->undo->is_consistent = 1; /* * per mib, can't have empty fingerprint and must * have data if indicated by map type. */ if (0 == entry->fingerprint_len) { DEBUGMSGTL(("tlstmCertToTSNTable:inconsistent", "fingerprint must not be empty\n")); entry->undo->is_consistent = 0; } else if ((TSNM_tlstmCertSpecified == entry->mapType) && (0 == entry->data_len)) { DEBUGMSGTL(("tlstmCertToTSNTable:inconsistent", "must specify Data for CertSpecified identity\n")); entry->undo->is_consistent = 0; } if ((RS_IS_ACTIVE(entry->rowStatus)) && ((!entry->undo->req[COL_SNMPTLSTMCERTTOTSN_ROWSTATUS]) || (RS_IS_ACTIVE(entry->undo->rowStatus)))) { /* * per mib, can't modify these while row active */ char _cols[3] = { COL_SNMPTLSTMCERTTOTSN_FINGERPRINT, COL_SNMPTLSTMCERTTOTSN_MAPTYPE, COL_SNMPTLSTMCERTTOTSN_DATA }; int i; for (i=0; i < 3; ++i ) { if (!entry->undo->req[i]) continue; DEBUGMSGTL(("tlstmCertToTSNTable:inconsistent", "can't modify row %d while active\n", _cols[i])); entry->undo->is_consistent = 0; ret = SNMP_ERR_NOTWRITABLE; request= entry->undo->req[i]; break; } } else if (RS_IS_GOING_ACTIVE(entry->rowStatus)) { /* * if going active, inconsistency is fatal */ if (!entry->undo->is_consistent) { netsnmp_assert(entry->undo->req[COL_SNMPTLSTMCERTTOTSN_ROWSTATUS]); if (FATE_NEWLY_CREATED == entry->undo->fate) ret = SNMP_ERR_INCONSISTENTNAME; else ret = SNMP_ERR_INCONSISTENTVALUE; request = entry->undo->req[COL_SNMPTLSTMCERTTOTSN_ROWSTATUS]; } } else if (RS_DESTROY == entry->rowStatus) { /* * can't destroy active row */ if (RS_IS_ACTIVE(entry->undo->rowStatus)) { DEBUGMSGTL(("tlstmCertToTSNTable:inconsistent", "can't destroy active row\n")); netsnmp_assert(entry->undo->req[COL_SNMPTLSTMCERTTOTSN_ROWSTATUS]); ret = SNMP_ERR_INCONSISTENTVALUE; request = entry->undo->req[COL_SNMPTLSTMCERTTOTSN_ROWSTATUS]; } } if (ret != SNMP_ERR_NOERROR) break; } /* consistency for requests */ break; /* case MODE_SET_ACTION */ /** ######################################################## UNDO ##### * * UNDO is for cleaning up any failed requests that went through the * ACTION phase. * * This the final phase for this path in the state machine. */ case MODE_SET_UNDO: for (request = requests; request; request = request->next) { row = netsnmp_tdata_extract_row(request); entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); info = netsnmp_extract_table_info(request); /* * skip newly created rows, as we're going to delete * them below anyways */ if (FATE_NEWLY_CREATED == entry->undo->fate) continue; /* * restore values */ switch (info->colnum) { case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT: memcpy(entry->fingerprint, entry->undo->fingerprint, sizeof(entry->fingerprint)); entry->fingerprint_len = entry->undo->fingerprint_len; entry->hashType = entry->undo->hashType; break; /* case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT */ case COL_SNMPTLSTMCERTTOTSN_MAPTYPE: entry->mapType = entry->undo->mapType; break; /* case COL_SNMPTLSTMCERTTOTSN_MAPTYPE */ case COL_SNMPTLSTMCERTTOTSN_DATA: memcpy(entry->data, entry->undo->data, sizeof(entry->data)); entry->data_len = entry->undo->data_len; break; /* case COL_SNMPTLSTMCERTTOTSN_DATA */ case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE: entry->storageType = entry->undo->storageType; break; /* case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE */ case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS: entry->rowStatus = entry->undo->rowStatus; break; /* case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS */ } /* switch colnum */ } /* for requests */ /* * release undo data * or remove any newly created rows */ for (request = requests; request; request = request->next) { table = netsnmp_tdata_extract_table(request); row = netsnmp_tdata_extract_row(request); entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); if (!entry || !entry->undo) continue; /** disassociate row with requests */ netsnmp_remove_tdata_row(request, row); if (FATE_NEWLY_CREATED == entry->undo->fate) tlstmCertToTSNTable_removeEntry(table, row); else _freeUndo(entry); } /* for requests */ break; /* case MODE_SET_UNDO */ /** ###################################################### COMMIT ##### * * COMMIT is the final success state, when all changes are finalized. * There is not recovery state should something faile here. * * This the final phase for this path in the state machine. */ case MODE_SET_COMMIT: for (request = requests; request; request = request->next) { row = netsnmp_tdata_extract_row(request); table = netsnmp_tdata_extract_table(request); info = netsnmp_extract_table_info(request); entry = (certToTSN_entry *) netsnmp_tdata_extract_entry(request); if ((RS_NOTREADY == entry->rowStatus) && entry->undo->is_consistent) entry->rowStatus = RS_NOTINSERVICE; else if ((RS_NOTINSERVICE == entry->rowStatus) && (0 == entry->undo->is_consistent)) entry->rowStatus = RS_NOTREADY; /** release undo data for requests with no rowstatus */ if (entry->undo && !entry->undo->req[COL_SNMPTLSTMCERTTOTSN_ROWSTATUS]) { _freeUndo(entry); if ((0 == entry->map_flags) && (entry->rowStatus == RS_ACTIVE)) _cert_map_add(entry); else if ((0 != entry->map_flags) && (entry->rowStatus == RS_DESTROY)) _cert_map_remove(entry); } switch (info->colnum) { case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS: switch (entry->rowStatus) { case RS_CREATEANDGO: /** Fall-through */ case RS_ACTIVE: netsnmp_assert(entry->undo->is_consistent); entry->rowStatus = RS_ACTIVE; if (0 == entry->map_flags) _cert_map_add(entry); break; case RS_CREATEANDWAIT: /** Fall-through */ case RS_NOTINSERVICE: /** simply set status based on consistency */ if (entry->undo->is_consistent) entry->rowStatus = RS_NOTINSERVICE; else entry->rowStatus = RS_NOTREADY; if (0 != entry->map_flags) _cert_map_remove(entry); break; case RS_DESTROY: /** remove from cert map */ if (0 != entry->map_flags) _cert_map_remove(entry); /** disassociate row with requests */ netsnmp_remove_tdata_row(request, row); tlstmCertToTSNTable_removeEntry(table, row); row = NULL; entry = NULL; } /** release undo data */ _freeUndo(entry); break; /* case COL_SNMPTLSTMCERTTOTSN_ROWSTATUS */ case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE: if (RS_ACTIVE == entry->rowStatus) _cert_map_tweak_storage(entry); break; /* case COL_SNMPTLSTMCERTTOTSN_STORAGETYPE */ case COL_SNMPTLSTMCERTTOTSN_FINGERPRINT: case COL_SNMPTLSTMCERTTOTSN_MAPTYPE: case COL_SNMPTLSTMCERTTOTSN_DATA: break; } /* switch colnum */ } /* for requests */ /** update last changed */ _last_changed = netsnmp_get_agent_uptime(); /** set up to save persistent store */ snmp_store_needed(NULL); break; /* case MODE_SET_COMMIT */ } /* switch (reqinfo->mode) */ if (ret != SNMP_ERR_NOERROR) netsnmp_set_request_error(reqinfo, request, ret); return SNMP_ERR_NOERROR; }