/* mge-xml.c Model specific routines for Eaton / MGE XML protocol UPSes Copyright (C) 2008-2009 Arjen de Korte 2009-2021 Eaton (author: Arnaud Quette ) 2017 Eaton (author: Jim Klimov ) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" /* must be the first header */ #include #include #include #include #include "common.h" #include "dstate.h" #include "netxml-ups.h" #include "mge-xml.h" #include "main.h" /* for testvar() */ #define MGE_XML_VERSION "MGEXML/0.36" #define MGE_XML_INITUPS "/" #define MGE_XML_INITINFO "/mgeups/product.xml /product.xml /ws/product.xml" #define ST_FLAG_RW 0x0001 #define ST_FLAG_STATIC 0x0002 static int mge_ambient_value = 0; /* The number of phases is not present in XML data as a separate node, * but we can infer it from presence of non-zero data on several * per-line nodes. */ static int inited_phaseinfo_in = 0, inited_phaseinfo_bypass = 0, inited_phaseinfo_out = 0, num_inphases = -1, num_bypassphases = -1, num_outphases = -1; static char mge_scratch_buf[256]; static char var[128]; static char val[128]; static int mge_shutdown_pending = 0; /* This flag flips to 0 when/if we post the detailed deprecation message */ static int mge_report_deprecation__convert_deci = 1; typedef enum { ROOTPARENT = NE_XML_STATEROOT, _UNEXPECTED, _PARSEERROR, PRODUCT_INFO = 100, /* "/mgeups/product.xml" */ PI_SUMMARY = 110, PI_HTML_PROPERTIES_PAGE, PI_XML_SUMMARY_PAGE, PI_CENTRAL_CFG, PI_CSV_LOGS, /* /PI_SUMMARY */ PI_ALARMS = 120, PI_SUBSCRIPTION, PI_POLLING, /* /ALARMS */ PI_MANAGEMENT = 130, PI_MANAGEMENT_PAGE, PI_XML_MANAGEMENT_PAGE, /* /MANAGEMENT */ PI_UPS_DATA = 140, PI_GET_OBJECT, PI_SET_OBJECT, /* /UPS_DATA */ /* /PRODUCT_INFO */ SUMMARY = 200, /* "/upsprop.xml" */ SU_OBJECT, /* /SUMMARY */ GET_OBJECT = 300, /* "/getvalue.cgi" */ GO_OBJECT, /* /GET_OBJECT */ SET_OBJECT = 400, /* "/setvalue.cgi" */ SO_OBJECT, /* /SET_OBJECT */ ALARM = 500, XML_CLIENT = 600, XC_GENERAL = 610, XC_STARTUP, XC_SHUTDOWN, XC_BROADCAST } mge_xml_state_t; typedef struct { const char *nutname; /* NUT variable name */ uint32_t nutflags; /* NUT flags (to set in addinfo) */ size_t nutlen; /* length of the NUT string */ const char *xmlname; /* XML variable name */ uint32_t xmlflags; /* XML flags (to be used to determine what kind of variable this is */ size_t xmllen; /* length of the XML string */ const char *(*convert)(const char *value); /* conversion function from XML<->NUT value (returns NULL if no further processing is required) */ } xml_info_t; static const char *online_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(ONLINE); } else { STATUS_CLR(ONLINE); } return NULL; } static const char *discharging_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(DISCHRG); /* Workaround NMC bug: both charging and discharging set to 1 */ if(STATUS_BIT(CHRG)) { STATUS_CLR(CHRG); } } else { STATUS_CLR(DISCHRG); } return NULL; } static const char *charging_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(CHRG); } else { STATUS_CLR(CHRG); } return NULL; } static const char *lowbatt_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(LOWBATT); } else { STATUS_CLR(LOWBATT); } return NULL; } static const char *overload_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(OVERLOAD); } else { STATUS_CLR(OVERLOAD); } return NULL; } static const char *replacebatt_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(REPLACEBATT); } else { STATUS_CLR(REPLACEBATT); } return NULL; } static const char *trim_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(TRIM); } else { STATUS_CLR(TRIM); } return NULL; } static const char *boost_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(BOOST); } else { STATUS_CLR(BOOST); } return NULL; } static const char *bypass_aut_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(BYPASSAUTO); } else { STATUS_CLR(BYPASSAUTO); } return NULL; } static const char *bypass_man_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(BYPASSMAN); } else { STATUS_CLR(BYPASSMAN); } return NULL; } static const char *off_info(const char *arg_val) { if (arg_val[0] == '0') { STATUS_SET(OFF); } else { STATUS_CLR(OFF); } return NULL; } /* note: this value is reverted (0=set, 1=not set). We report "battery not installed" rather than "battery installed", so that devices that don't implement this variable have a battery by default */ static const char *nobattery_info(const char *arg_val) { if (arg_val[0] == '0') { STATUS_SET(NOBATTERY); } else { STATUS_CLR(NOBATTERY); } return NULL; } static const char *fanfail_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(FANFAIL); } else { STATUS_CLR(FANFAIL); } return NULL; } #if 0 static const char *shutdownimm_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(SHUTDOWNIMM); } else { STATUS_CLR(SHUTDOWNIMM); } return NULL; } #endif static const char *overheat_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(OVERHEAT); } else { STATUS_CLR(OVERHEAT); } return NULL; } static const char *commfault_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(COMMFAULT); } else { STATUS_CLR(COMMFAULT); } return NULL; } static const char *internalfailure_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(INTERNALFAULT); } else { STATUS_CLR(INTERNALFAULT); } return NULL; } static const char *battvoltlo_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(BATTVOLTLO); } else { STATUS_CLR(BATTVOLTLO); } return NULL; } static const char *battvolthi_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(BATTVOLTHI); } else { STATUS_CLR(BATTVOLTHI); } return NULL; } static const char *chargerfail_info(const char *arg_val) { if ((arg_val[0] == '1') || !strncasecmp(arg_val, "Yes", 3)) { STATUS_SET(CHARGERFAIL); } else { STATUS_CLR(CHARGERFAIL); } return NULL; } static const char *vrange_info(const char *arg_val) { if ((arg_val[0] == '1') || !strncasecmp(arg_val, "Yes", 3)) { STATUS_SET(VRANGE); } else { STATUS_CLR(VRANGE); } return NULL; } static const char *frange_info(const char *arg_val) { if ((arg_val[0] == '1') || !strncasecmp(arg_val, "Yes", 3)) { STATUS_SET(FRANGE); } else { STATUS_CLR(FRANGE); } return NULL; } static const char *fuse_fault_info(const char *arg_val) { if (arg_val[0] == '1') { STATUS_SET(FUSEFAULT); } else { STATUS_CLR(FUSEFAULT); } return NULL; } static const char *yes_no_info(const char *arg_val) { switch(arg_val[0]) { case '1': return "yes"; case '0': return "no"; default: upsdebugx(2, "%s: unexpected value [%s]", __func__, arg_val); return ""; } } static const char *on_off_info(const char *arg_val) { switch(arg_val[0]) { case '1': return "on"; case '0': return "off"; default: upsdebugx(2, "%s: unexpected value [%s]", __func__, arg_val); return ""; } } static const char *convert_deci(const char *arg_val) { /* Note: this routine was needed for original MGE devices, before the company * was bought out and split in 2007 between Eaton (1ph devices) and Schneider * (3ph devices). Those firmwares back when the driver was written apparently * served 10x the measured values. Not sure if any such units are in service * now (with same FW, and with no upgrade path). Reign of XML/PDC is waning. * For currently known NetXML servers, the value served is good without more * conversions. If older devices pop up in the field, we can add an estimation * by e.g. reported voltage and amps (to be an order of magnitude for power). * Alternately we can look at model names and/or firmware versions or release * dates, if we get those and if we know enough to map them to either logic. */ if (testvar("do_convert_deci")) { /* Old code for old devices: */ if (mge_report_deprecation__convert_deci) { upslogx(LOG_NOTICE, "%s() is now deprecated, so values from XML are normally not decimated. This driver instance has however configured do_convert_deci in your ups.conf, so this behavior for old MGE NetXML-capable devices is preserved.", __func__); mge_report_deprecation__convert_deci = 0; } snprintf(mge_scratch_buf, sizeof(mge_scratch_buf), "%.1f", 0.1 * (float)(atoi(arg_val))); return mge_scratch_buf; } if (mge_report_deprecation__convert_deci) { upslogx(LOG_NOTICE, "%s() is now deprecated, so values from XML are not decimated. If you happen to have an old MGE NetXML-capable device that now shows measurements 10x too big, and a firmware update does not solve this, please inform NUT devs via the issue tracker at %s with details about your hardware and firmware versions. Also try to enable do_convert_deci in your ups.conf", __func__, PACKAGE_BUGREPORT ); mge_report_deprecation__convert_deci = 0; } upsdebugx(5, "%s() is now deprecated, so value '%s' is not decimated. If this change broke your setup, please see details logged above.", __func__, arg_val); return arg_val; } /* Ignore a zero value if the UPS is not switched off */ static const char *ignore_if_zero(const char *arg_val) { if (atoi(arg_val) == 0) { return NULL; } return convert_deci(arg_val); } /* Set the 'ups.date' from the combined value * (ex. 2008/03/01 15:23:26) and return the time */ static const char *split_date_time(const char *arg_val) { char *last = NULL; snprintf(mge_scratch_buf, sizeof(mge_scratch_buf), "%s", arg_val); dstate_setinfo("ups.date", "%s", strtok_r(mge_scratch_buf, " -", &last)); return strtok_r(NULL, " ", &last); } static const char *url_convert(const char *arg_val) { char buf[256], *last = NULL; snprintf(buf, sizeof(buf), "%s", arg_val); snprintf(mge_scratch_buf, sizeof(mge_scratch_buf), "/%s", strtok_r(buf, " \r\n\t", &last)); return mge_scratch_buf; } static const char *mge_battery_capacity(const char *arg_val) { snprintf(mge_scratch_buf, sizeof(mge_scratch_buf), "%.2f", (float)(atoi(arg_val)) / 3600.0); return mge_scratch_buf; } static const char *mge_powerfactor_conversion(const char *arg_val) { snprintf(mge_scratch_buf, sizeof(mge_scratch_buf), "%.2f", (float)(atoi(arg_val)) / 100.0); return mge_scratch_buf; } static const char *mge_beeper_info(const char *arg_val) { switch (atoi(arg_val)) { case 1: return "disabled"; case 2: return "enabled"; case 3: return "muted"; } return NULL; } static const char *mge_upstype_conversion(const char *arg_val) { switch (atoi(arg_val)) { case 1: return "offline / line interactive"; case 2: return "online"; case 3: return "online - unitary/parallel"; case 4: return "online - parallel with hot standy"; case 5: return "online - hot standby redundancy"; } return NULL; } static const char *mge_sensitivity_info(const char *arg_val) { switch (atoi(arg_val)) { case 0: return "normal"; case 1: return "high"; case 2: return "low"; } return NULL; } static const char *mge_test_result_info(const char *arg_val) { STATUS_CLR(CAL); switch (atoi(arg_val)) { case 1: return "done and passed"; case 2: return "done and warning"; case 3: return "done and error"; case 4: return "aborted"; case 5: STATUS_SET(CAL); return "in progress"; case 6: return "no test initiated"; case 7: return "test scheduled"; } return NULL; } static const char *mge_ambient_info(const char *arg_val) { switch (mge_ambient_value) { case 1: return arg_val; default: return NULL; } } static const char *mge_drycontact_info(const char *arg_val) { /* these values should theoretically be obtained through * Environment.Input[1].State[x].Description * Examples: * open * closed */ switch (atoi(arg_val)) { case 0: return "opened"; case 1: return "closed"; default: return NULL; } } static const char *mge_timer_shutdown(const char *delay_before_shutoff) { if (atoi(delay_before_shutoff) > -1 ) { STATUS_SET(SHUTDOWNIMM); mge_shutdown_pending = 1; if( atoi(delay_before_shutoff) > shutdown_duration ) { STATUS_CLR(SHUTDOWNIMM); mge_shutdown_pending = 0; } } else { STATUS_CLR(SHUTDOWNIMM); mge_shutdown_pending = 0; } return val; } static const char *mge_shutdown_imminent(const char *arg_val) { const int shutdown_delay = atoi(arg_val); /* shutdown is already managed by mge_timer_shutdown, give up */ if(mge_shutdown_pending) { return NULL; } /* We may have "NONE" or "-1" or ?? as value * We also double check both the string and numeric values to be zero!*/ if ((arg_val) && (arg_val[0] == '0') && (shutdown_delay == 0)) { STATUS_SET(SHUTDOWNIMM); } else { STATUS_CLR(SHUTDOWNIMM); } return NULL; } static xml_info_t mge_xml2nut[] = { /* NMC configuration (mapped 1:1 for now) */ { "device.contact", ST_FLAG_RW, 0, "System.Contact", 0, 0, NULL }, { "device.location", ST_FLAG_RW, 0, "System.Location", 0, 0, NULL }, /* Not used for now; might however be used in future for history & stats collection { "System.History.Log.Interval", ST_FLAG_RW, 0, "System.History.Log.Interval", 0, 0, NULL }, */ #if (0) /* not interresting for NUT */ { "System.Environment.Log.Interval", ST_FLAG_RW, 0, "System.Environment.Log.Interval", 0, 0, NULL }, { "System.Outlet[1].iName", ST_FLAG_RW, 0, "System.Outlet[1].iName", 0, 0, NULL }, /* Mapped as ups.delay.shutdown { "System.ShutdownDuration", ST_FLAG_RW, 0, "System.ShutdownDuration", 0, 0, NULL }, */ { "System.ShutdownTimerSelected", ST_FLAG_RW, 0, "System.ShutdownTimerSelected", 0, 0, NULL }, { "System.ShutdownTimer", ST_FLAG_RW, 0, "System.ShutdownTimer", 0, 0, NULL }, /* Mapped as battery.runtime.low { "System.RunTimeToEmptyLimit", ST_FLAG_RW, 0, "System.RunTimeToEmptyLimit", 0, 0, NULL }, */ { "System.RemainingCapacityLimit", ST_FLAG_RW, 0, "System.RemainingCapacityLimit", 0, 0, NULL }, { "System.RestartLevel", ST_FLAG_RW, 0, "System.RestartLevel", 0, 0, NULL }, { "System.Outlet[2].iName", ST_FLAG_RW, 0, "System.Outlet[2].iName", 0, 0, NULL }, /* Mapped as outlet.1.delay.shutdown { "System.Outlet[2].ShutdownDuration", ST_FLAG_RW, 0, "System.Outlet[2].ShutdownDuration", 0, 0, NULL }, */ { "System.Outlet[2].ShutdownTimer", ST_FLAG_RW, 0, "System.Outlet[2].ShutdownTimer", 0, 0, NULL }, { "System.Outlet[2].StartupTimer", ST_FLAG_RW, 0, "System.Outlet[2].StartupTimer", 0, 0, NULL }, { "System.Outlet[2].RemainingCapacityLimit", ST_FLAG_RW, 0, "System.Outlet[2].RemainingCapacityLimit", 0, 0, NULL }, /* For future extension, and support of shutdown on load segment * { "System.Outlet[2].RunTimeToShutdown", ST_FLAG_RW, 0, "System.Outlet[2].RunTimeToShutdown", 0, 0, NULL }, */ { "System.Outlet[3].iName", ST_FLAG_RW, 0, "System.Outlet[3].iName", 0, 0, NULL }, /* Mapped as outlet.2.delay.shutdown { "System.Outlet[3].ShutdownDuration", ST_FLAG_RW, 0, "System.Outlet[3].ShutdownDuration", 0, 0, NULL }, */ { "System.Outlet[3].ShutdownTimer", ST_FLAG_RW, 0, "System.Outlet[3].ShutdownTimer", 0, 0, NULL }, { "System.Outlet[3].StartupTimer", ST_FLAG_RW, 0, "System.Outlet[3].StartupTimer", 0, 0, NULL }, { "System.Outlet[3].RemainingCapacityLimit", ST_FLAG_RW, 0, "System.Outlet[3].RemainingCapacityLimit", 0, 0, NULL }, /* For future extension, and support of shutdown on load segment * { "System.Outlet[3].RunTimeToShutdown", ST_FLAG_RW, 0, "System.Outlet[3].RunTimeToShutdown", 0, 0, NULL }, */ { "System.Outlet[1].OffDelay", ST_FLAG_RW, 0, "System.Outlet[1].OffDelay", 0, 0, NULL }, { "System.Outlet[1].Toggle", ST_FLAG_RW, 0, "System.Outlet[1].Toggle", 0, 0, NULL }, { "System.Outlet[1].OnDelay", ST_FLAG_RW, 0, "System.Outlet[1].OnDelay", 0, 0, NULL }, { "System.Outlet[2].OffDelay", ST_FLAG_RW, 0, "System.Outlet[2].OffDelay", 0, 0, NULL }, { "System.Outlet[2].Toggle", ST_FLAG_RW, 0, "System.Outlet[2].Toggle", 0, 0, NULL }, { "System.Outlet[2].OnDelay", ST_FLAG_RW, 0, "System.Outlet[2].OnDelay", 0, 0, NULL }, { "System.Outlet[3].OffDelay", ST_FLAG_RW, 0, "System.Outlet[3].OffDelay", 0, 0, NULL }, { "System.Outlet[3].Toggle", ST_FLAG_RW, 0, "System.Outlet[3].Toggle", 0, 0, NULL }, { "System.Outlet[3].OnDelay", ST_FLAG_RW, 0, "System.Outlet[3].OnDelay", 0, 0, NULL }, { "System.Login", ST_FLAG_RW, 0, "System.Login", 0, 0, NULL }, { "System.Password", ST_FLAG_RW, 0, "System.Password", 0, 0, NULL }, { "System.Security", ST_FLAG_RW, 0, "System.Security", 0, 0, NULL }, { "System.FirmwareUpgrade", ST_FLAG_RW, 0, "System.FirmwareUpgrade", 0, 0, NULL }, { "System.Network.SNMP.ReadCommunity", ST_FLAG_RW, 0, "System.Network.SNMP.ReadCommunity", 0, 0, NULL }, { "System.Network.SNMP.ReadCommunityName", 0, 0, "System.Network.SNMP.ReadCommunityName", 0, 0, NULL }, { "System.Network.SNMP.ReadCommunitySecurityLevel", 0, 0, "System.Network.SNMP.ReadCommunitySecurityLevel", 0, 0, NULL }, { "System.Network.SNMP.ReadCommunitySecurityRight", 0, 0, "System.Network.SNMP.ReadCommunitySecurityRight", 0, 0, NULL }, { "System.Network.SNMP.WriteCommunity", ST_FLAG_RW, 0, "System.Network.SNMP.WriteCommunity", 0, 0, NULL }, { "System.Network.SNMP.WriteCommunityName", 0, 0, "System.Network.SNMP.WriteCommunityName", 0, 0, NULL }, { "System.Network.SNMP.WriteCommunitySecurityLevel", 0, 0, "System.Network.SNMP.WriteCommunitySecurityLevel", 0, 0, NULL }, { "System.Network.SNMP.WriteCommunitySecurityRight", ST_FLAG_RW, 0, "System.Network.SNMP.WriteCommunitySecurityRight", 0, 0, NULL }, { "System.Network.SNMP.Admin", ST_FLAG_RW, 0, "System.Network.SNMP.Admin", 0, 0, NULL }, { "System.Network.SNMP.AdminPassword", ST_FLAG_RW, 0, "System.Network.SNMP.AdminPassword", 0, 0, NULL }, { "System.Network.SNMP.AdminSecurityLevel", ST_FLAG_RW, 0, "System.Network.SNMP.AdminSecurityLevel", 0, 0, NULL }, { "System.Network.SNMP.AdminSecurityRight", 0, 0, "System.Network.SNMP.AdminSecurityRight", 0, 0, NULL }, { "System.Network.SNMP.User", ST_FLAG_RW, 0, "System.Network.SNMP.User", 0, 0, NULL }, { "System.Network.SNMP.UserPassword", ST_FLAG_RW, 0, "System.Network.SNMP.UserPassword", 0, 0, NULL }, { "System.Network.SNMP.UserSecurityLevel", ST_FLAG_RW, 0, "System.Network.SNMP.UserSecurityLevel", 0, 0, NULL }, { "System.Network.SNMP.UserSecurityRight", 0, 0, "System.Network.SNMP.UserSecurityRight", 0, 0, NULL }, { "System.Network.SNMP.NotificationUserName", ST_FLAG_RW, 0, "System.Network.SNMP.NotificationUserName", 0, 0, NULL }, { "System.Network.SNMP.snmpVersion", ST_FLAG_RW, 0, "System.Network.SNMP.snmpVersion", 0, 0, NULL }, { "System.Network.SNMP.engineBoots", 0, 0, "System.Network.SNMP.engineBoots", 0, 0, NULL }, { "System.Network.Telnet.Access", ST_FLAG_RW, 0, "System.Network.Telnet.Access", 0, 0, NULL }, { "System.Network.Telnet.Security", ST_FLAG_RW, 0, "System.Network.Telnet.Security", 0, 0, NULL }, { "System.Network.Telnet.Console", ST_FLAG_RW, 0, "System.Network.Telnet.Console", 0, 0, NULL }, { "System.Email.Sender", ST_FLAG_RW, 0, "System.Email.Sender", 0, 0, NULL }, { "System.Email.Subject", ST_FLAG_RW, 0, "System.Email.Subject", 0, 0, NULL }, { "System.Email.UPSName", ST_FLAG_RW, 0, "System.Email.UPSName", 0, 0, NULL }, { "System.Email.Message", ST_FLAG_RW, 0, "System.Email.Message", 0, 0, NULL }, { "System.Email.Localization", ST_FLAG_RW, 0, "System.Email.Localization", 0, 0, NULL }, { "System.Email.EventName", ST_FLAG_RW, 0, "System.Email.EventName", 0, 0, NULL }, { "System.Email[0].Recipient", ST_FLAG_RW, 0, "System.Email[0].Recipient", 0, 0, NULL }, { "System.Email[0].Selected", ST_FLAG_RW, 0, "System.Email[0].Selected", 0, 0, NULL }, { "System.Email[0].Enotify", ST_FLAG_RW, 0, "System.Email[0].Enotify", 0, 0, NULL }, { "System.Email[0].Measures.Log", ST_FLAG_RW, 0, "System.Email[0].Measures.Log", 0, 0, NULL }, { "System.Email[0].Events.Log", ST_FLAG_RW, 0, "System.Email[0].Events.Log", 0, 0, NULL }, { "System.Email[0].SystemEvents.Log", ST_FLAG_RW, 0, "System.Email[0].SystemEvents.Log", 0, 0, NULL }, { "System.Email[0].Environment.Log", ST_FLAG_RW, 0, "System.Email[0].Environment.Log", 0, 0, NULL }, { "System.Email[0].Report.Periodicity", ST_FLAG_RW, 0, "System.Email[0].Report.Periodicity", 0, 0, NULL }, { "System.Email[0].Report.Hour", ST_FLAG_RW, 0, "System.Email[0].Report.Hour", 0, 0, NULL }, { "System.Email[0].Report.Next", ST_FLAG_RW, 0, "System.Email[0].Report.Next", 0, 0, NULL }, { "System.Email[0].EventList.Discharging", ST_FLAG_RW, 0, "System.Email[0].EventList.Discharging", 0, 0, NULL }, { "System.Email[0].EventList.ACPresent", ST_FLAG_RW, 0, "System.Email[0].EventList.ACPresent", 0, 0, NULL }, { "System.Email[0].EventList.RunTimeToShutdown", ST_FLAG_RW, 0, "System.Email[0].EventList.RunTimeToShutdown", 0, 0, NULL }, { "System.Email[0].EventList.BelowRemainingCapacityLimit", ST_FLAG_RW, 0, "System.Email[0].EventList.BelowRemainingCapacityLimit", 0, 0, NULL }, { "System.Email[0].EventList.NeedReplacement.1", ST_FLAG_RW, 0, "System.Email[0].EventList.NeedReplacement.1", 0, 0, NULL }, { "System.Email[0].EventList.NeedReplacement.0", ST_FLAG_RW, 0, "System.Email[0].EventList.NeedReplacement.0", 0, 0, NULL }, { "System.Email[0].EventList.Overload.1", ST_FLAG_RW, 0, "System.Email[0].EventList.Overload.1", 0, 0, NULL }, { "System.Email[0].EventList.Overload.0", ST_FLAG_RW, 0, "System.Email[0].EventList.Overload.0", 0, 0, NULL }, { "System.Email[0].EventList.InternalFailure.1", ST_FLAG_RW, 0, "System.Email[0].EventList.InternalFailure.1", 0, 0, NULL }, { "System.Email[0].EventList.InternalFailure.0", ST_FLAG_RW, 0, "System.Email[0].EventList.InternalFailure.0", 0, 0, NULL }, { "System.Email[0].EventList.CommunicationLost.1", ST_FLAG_RW, 0, "System.Email[0].EventList.CommunicationLost.1", 0, 0, NULL }, { "System.Email[0].EventList.CommunicationLost.0", ST_FLAG_RW, 0, "System.Email[0].EventList.CommunicationLost.0", 0, 0, NULL }, { "System.Email[0].EventList.Charger.InternalFailure", ST_FLAG_RW, 0, "System.Email[0].EventList.Charger.InternalFailure", 0, 0, NULL }, { "System.Email[0].EventList.Input[2].Used.1", ST_FLAG_RW, 0, "System.Email[0].EventList.Input[2].Used.1", 0, 0, NULL }, { "System.Email[0].EventList.Input[2].Used.0", ST_FLAG_RW, 0, "System.Email[0].EventList.Input[2].Used.0", 0, 0, NULL }, { "System.Email[0].EventList.PowerModule.RedundancyLost.1", ST_FLAG_RW, 0, "System.Email[0].EventList.PowerModule.RedundancyLost.1", 0, 0, NULL }, { "System.Email[0].EventList.PowerModule.RedundancyLost.0", ST_FLAG_RW, 0, "System.Email[0].EventList.PowerModule.RedundancyLost.0", 0, 0, NULL }, { "System.Email[0].EventList.PowerModule.ProtectionLost.1", ST_FLAG_RW, 0, "System.Email[0].EventList.PowerModule.ProtectionLost.1", 0, 0, NULL }, { "System.Email[0].EventList.PowerModule.ProtectionLost.0", ST_FLAG_RW, 0, "System.Email[0].EventList.PowerModule.ProtectionLost.0", 0, 0, NULL }, { "System.Email[0].EventList.FirmwareUpgrade", ST_FLAG_RW, 0, "System.Email[0].EventList.FirmwareUpgrade", 0, 0, NULL }, { "System.Email[0].EventList.Environment.CommunicationLost", ST_FLAG_RW, 0, "System.Email[0].EventList.Environment.CommunicationLost", 0, 0, NULL }, { "System.Email[0].EventList.Environment.Notify", ST_FLAG_RW, 0, "System.Email[0].EventList.Environment.Notify", 0, 0, NULL }, { "System.Email[1].Recipient", ST_FLAG_RW, 0, "System.Email[1].Recipient", 0, 0, NULL }, { "System.Email[1].Selected", ST_FLAG_RW, 0, "System.Email[1].Selected", 0, 0, NULL }, { "System.Email[1].Enotify", ST_FLAG_RW, 0, "System.Email[1].Enotify", 0, 0, NULL }, { "System.Email[1].Measures.Log", ST_FLAG_RW, 0, "System.Email[1].Measures.Log", 0, 0, NULL }, { "System.Email[1].Events.Log", ST_FLAG_RW, 0, "System.Email[1].Events.Log", 0, 0, NULL }, { "System.Email[1].SystemEvents.Log", ST_FLAG_RW, 0, "System.Email[1].SystemEvents.Log", 0, 0, NULL }, { "System.Email[1].Environment.Log", ST_FLAG_RW, 0, "System.Email[1].Environment.Log", 0, 0, NULL }, { "System.Email[1].Report.Periodicity", ST_FLAG_RW, 0, "System.Email[1].Report.Periodicity", 0, 0, NULL }, { "System.Email[1].Report.Hour", ST_FLAG_RW, 0, "System.Email[1].Report.Hour", 0, 0, NULL }, { "System.Email[1].Report.Next", ST_FLAG_RW, 0, "System.Email[1].Report.Next", 0, 0, NULL }, { "System.Email[1].EventList.Discharging", ST_FLAG_RW, 0, "System.Email[1].EventList.Discharging", 0, 0, NULL }, { "System.Email[1].EventList.ACPresent", ST_FLAG_RW, 0, "System.Email[1].EventList.ACPresent", 0, 0, NULL }, { "System.Email[1].EventList.RunTimeToShutdown", ST_FLAG_RW, 0, "System.Email[1].EventList.RunTimeToShutdown", 0, 0, NULL }, { "System.Email[1].EventList.BelowRemainingCapacityLimit", ST_FLAG_RW, 0, "System.Email[1].EventList.BelowRemainingCapacityLimit", 0, 0, NULL }, { "System.Email[1].EventList.NeedReplacement.1", ST_FLAG_RW, 0, "System.Email[1].EventList.NeedReplacement.1", 0, 0, NULL }, { "System.Email[1].EventList.NeedReplacement.0", ST_FLAG_RW, 0, "System.Email[1].EventList.NeedReplacement.0", 0, 0, NULL }, { "System.Email[1].EventList.Overload.1", ST_FLAG_RW, 0, "System.Email[1].EventList.Overload.1", 0, 0, NULL }, { "System.Email[1].EventList.Overload.0", ST_FLAG_RW, 0, "System.Email[1].EventList.Overload.0", 0, 0, NULL }, { "System.Email[1].EventList.InternalFailure.1", ST_FLAG_RW, 0, "System.Email[1].EventList.InternalFailure.1", 0, 0, NULL }, { "System.Email[1].EventList.InternalFailure.0", ST_FLAG_RW, 0, "System.Email[1].EventList.InternalFailure.0", 0, 0, NULL }, { "System.Email[1].EventList.CommunicationLost.1", ST_FLAG_RW, 0, "System.Email[1].EventList.CommunicationLost.1", 0, 0, NULL }, { "System.Email[1].EventList.CommunicationLost.0", ST_FLAG_RW, 0, "System.Email[1].EventList.CommunicationLost.0", 0, 0, NULL }, { "System.Email[1].EventList.Charger.InternalFailure", ST_FLAG_RW, 0, "System.Email[1].EventList.Charger.InternalFailure", 0, 0, NULL }, { "System.Email[1].EventList.Input[2].Used.1", ST_FLAG_RW, 0, "System.Email[1].EventList.Input[2].Used.1", 0, 0, NULL }, { "System.Email[1].EventList.Input[2].Used.0", ST_FLAG_RW, 0, "System.Email[1].EventList.Input[2].Used.0", 0, 0, NULL }, { "System.Email[1].EventList.PowerModule.RedundancyLost.1", ST_FLAG_RW, 0, "System.Email[1].EventList.PowerModule.RedundancyLost.1", 0, 0, NULL }, { "System.Email[1].EventList.PowerModule.RedundancyLost.0", ST_FLAG_RW, 0, "System.Email[1].EventList.PowerModule.RedundancyLost.0", 0, 0, NULL }, { "System.Email[1].EventList.PowerModule.ProtectionLost.1", ST_FLAG_RW, 0, "System.Email[1].EventList.PowerModule.ProtectionLost.1", 0, 0, NULL }, { "System.Email[1].EventList.PowerModule.ProtectionLost.0", ST_FLAG_RW, 0, "System.Email[1].EventList.PowerModule.ProtectionLost.0", 0, 0, NULL }, { "System.Email[1].EventList.FirmwareUpgrade", ST_FLAG_RW, 0, "System.Email[1].EventList.FirmwareUpgrade", 0, 0, NULL }, { "System.Email[1].EventList.Environment.CommunicationLost", ST_FLAG_RW, 0, "System.Email[1].EventList.Environment.CommunicationLost", 0, 0, NULL }, { "System.Email[1].EventList.Environment.Notify", ST_FLAG_RW, 0, "System.Email[1].EventList.Environment.Notify", 0, 0, NULL }, { "System.Email[2].Recipient", ST_FLAG_RW, 0, "System.Email[2].Recipient", 0, 0, NULL }, { "System.Email[2].Selected", ST_FLAG_RW, 0, "System.Email[2].Selected", 0, 0, NULL }, { "System.Email[2].Enotify", ST_FLAG_RW, 0, "System.Email[2].Enotify", 0, 0, NULL }, { "System.Email[2].Measures.Log", ST_FLAG_RW, 0, "System.Email[2].Measures.Log", 0, 0, NULL }, { "System.Email[2].Events.Log", ST_FLAG_RW, 0, "System.Email[2].Events.Log", 0, 0, NULL }, { "System.Email[2].SystemEvents.Log", ST_FLAG_RW, 0, "System.Email[2].SystemEvents.Log", 0, 0, NULL }, { "System.Email[2].Environment.Log", ST_FLAG_RW, 0, "System.Email[2].Environment.Log", 0, 0, NULL }, { "System.Email[2].Report.Periodicity", ST_FLAG_RW, 0, "System.Email[2].Report.Periodicity", 0, 0, NULL }, { "System.Email[2].Report.Hour", ST_FLAG_RW, 0, "System.Email[2].Report.Hour", 0, 0, NULL }, { "System.Email[2].Report.Next", ST_FLAG_RW, 0, "System.Email[2].Report.Next", 0, 0, NULL }, { "System.Email[2].EventList.Discharging", ST_FLAG_RW, 0, "System.Email[2].EventList.Discharging", 0, 0, NULL }, { "System.Email[2].EventList.ACPresent", ST_FLAG_RW, 0, "System.Email[2].EventList.ACPresent", 0, 0, NULL }, { "System.Email[2].EventList.RunTimeToShutdown", ST_FLAG_RW, 0, "System.Email[2].EventList.RunTimeToShutdown", 0, 0, NULL }, { "System.Email[2].EventList.BelowRemainingCapacityLimit", ST_FLAG_RW, 0, "System.Email[2].EventList.BelowRemainingCapacityLimit", 0, 0, NULL }, { "System.Email[2].EventList.NeedReplacement.1", ST_FLAG_RW, 0, "System.Email[2].EventList.NeedReplacement.1", 0, 0, NULL }, { "System.Email[2].EventList.NeedReplacement.0", ST_FLAG_RW, 0, "System.Email[2].EventList.NeedReplacement.0", 0, 0, NULL }, { "System.Email[2].EventList.Overload.1", ST_FLAG_RW, 0, "System.Email[2].EventList.Overload.1", 0, 0, NULL }, { "System.Email[2].EventList.Overload.0", ST_FLAG_RW, 0, "System.Email[2].EventList.Overload.0", 0, 0, NULL }, { "System.Email[2].EventList.InternalFailure.1", ST_FLAG_RW, 0, "System.Email[2].EventList.InternalFailure.1", 0, 0, NULL }, { "System.Email[2].EventList.InternalFailure.0", ST_FLAG_RW, 0, "System.Email[2].EventList.InternalFailure.0", 0, 0, NULL }, { "System.Email[2].EventList.CommunicationLost.1", ST_FLAG_RW, 0, "System.Email[2].EventList.CommunicationLost.1", 0, 0, NULL }, { "System.Email[2].EventList.CommunicationLost.0", ST_FLAG_RW, 0, "System.Email[2].EventList.CommunicationLost.0", 0, 0, NULL }, { "System.Email[2].EventList.Charger.InternalFailure", ST_FLAG_RW, 0, "System.Email[2].EventList.Charger.InternalFailure", 0, 0, NULL }, { "System.Email[2].EventList.Input[2].Used.1", ST_FLAG_RW, 0, "System.Email[2].EventList.Input[2].Used.1", 0, 0, NULL }, { "System.Email[2].EventList.Input[2].Used.0", ST_FLAG_RW, 0, "System.Email[2].EventList.Input[2].Used.0", 0, 0, NULL }, { "System.Email[2].EventList.PowerModule.RedundancyLost.1", ST_FLAG_RW, 0, "System.Email[2].EventList.PowerModule.RedundancyLost.1", 0, 0, NULL }, { "System.Email[2].EventList.PowerModule.RedundancyLost.0", ST_FLAG_RW, 0, "System.Email[2].EventList.PowerModule.RedundancyLost.0", 0, 0, NULL }, { "System.Email[2].EventList.PowerModule.ProtectionLost.1", ST_FLAG_RW, 0, "System.Email[2].EventList.PowerModule.ProtectionLost.1", 0, 0, NULL }, { "System.Email[2].EventList.PowerModule.ProtectionLost.0", ST_FLAG_RW, 0, "System.Email[2].EventList.PowerModule.ProtectionLost.0", 0, 0, NULL }, { "System.Email[2].EventList.FirmwareUpgrade", ST_FLAG_RW, 0, "System.Email[2].EventList.FirmwareUpgrade", 0, 0, NULL }, { "System.Email[2].EventList.Environment.CommunicationLost", ST_FLAG_RW, 0, "System.Email[2].EventList.Environment.CommunicationLost", 0, 0, NULL }, { "System.Email[2].EventList.Environment.Notify", ST_FLAG_RW, 0, "System.Email[2].EventList.Environment.Notify", 0, 0, NULL }, { "System.Email[3].Recipient", ST_FLAG_RW, 0, "System.Email[3].Recipient", 0, 0, NULL }, { "System.Email[3].Selected", ST_FLAG_RW, 0, "System.Email[3].Selected", 0, 0, NULL }, { "System.Email[3].Enotify", ST_FLAG_RW, 0, "System.Email[3].Enotify", 0, 0, NULL }, { "System.Email[3].Measures.Log", ST_FLAG_RW, 0, "System.Email[3].Measures.Log", 0, 0, NULL }, { "System.Email[3].Events.Log", ST_FLAG_RW, 0, "System.Email[3].Events.Log", 0, 0, NULL }, { "System.Email[3].SystemEvents.Log", ST_FLAG_RW, 0, "System.Email[3].SystemEvents.Log", 0, 0, NULL }, { "System.Email[3].Environment.Log", ST_FLAG_RW, 0, "System.Email[3].Environment.Log", 0, 0, NULL }, { "System.Email[3].Report.Periodicity", ST_FLAG_RW, 0, "System.Email[3].Report.Periodicity", 0, 0, NULL }, { "System.Email[3].Report.Hour", ST_FLAG_RW, 0, "System.Email[3].Report.Hour", 0, 0, NULL }, { "System.Email[3].Report.Next", ST_FLAG_RW, 0, "System.Email[3].Report.Next", 0, 0, NULL }, { "System.Email[3].EventList.Discharging", ST_FLAG_RW, 0, "System.Email[3].EventList.Discharging", 0, 0, NULL }, { "System.Email[3].EventList.ACPresent", ST_FLAG_RW, 0, "System.Email[3].EventList.ACPresent", 0, 0, NULL }, { "System.Email[3].EventList.RunTimeToShutdown", ST_FLAG_RW, 0, "System.Email[3].EventList.RunTimeToShutdown", 0, 0, NULL }, { "System.Email[3].EventList.BelowRemainingCapacityLimit", ST_FLAG_RW, 0, "System.Email[3].EventList.BelowRemainingCapacityLimit", 0, 0, NULL }, { "System.Email[3].EventList.NeedReplacement.1", ST_FLAG_RW, 0, "System.Email[3].EventList.NeedReplacement.1", 0, 0, NULL }, { "System.Email[3].EventList.NeedReplacement.0", ST_FLAG_RW, 0, "System.Email[3].EventList.NeedReplacement.0", 0, 0, NULL }, { "System.Email[3].EventList.Overload.1", ST_FLAG_RW, 0, "System.Email[3].EventList.Overload.1", 0, 0, NULL }, { "System.Email[3].EventList.Overload.0", ST_FLAG_RW, 0, "System.Email[3].EventList.Overload.0", 0, 0, NULL }, { "System.Email[3].EventList.InternalFailure.1", ST_FLAG_RW, 0, "System.Email[3].EventList.InternalFailure.1", 0, 0, NULL }, { "System.Email[3].EventList.InternalFailure.0", ST_FLAG_RW, 0, "System.Email[3].EventList.InternalFailure.0", 0, 0, NULL }, { "System.Email[3].EventList.CommunicationLost.1", ST_FLAG_RW, 0, "System.Email[3].EventList.CommunicationLost.1", 0, 0, NULL }, { "System.Email[3].EventList.CommunicationLost.0", ST_FLAG_RW, 0, "System.Email[3].EventList.CommunicationLost.0", 0, 0, NULL }, { "System.Email[3].EventList.Charger.InternalFailure", ST_FLAG_RW, 0, "System.Email[3].EventList.Charger.InternalFailure", 0, 0, NULL }, { "System.Email[3].EventList.Input[2].Used.1", ST_FLAG_RW, 0, "System.Email[3].EventList.Input[2].Used.1", 0, 0, NULL }, { "System.Email[3].EventList.Input[2].Used.0", ST_FLAG_RW, 0, "System.Email[3].EventList.Input[2].Used.0", 0, 0, NULL }, { "System.Email[3].EventList.PowerModule.RedundancyLost.1", ST_FLAG_RW, 0, "System.Email[3].EventList.PowerModule.RedundancyLost.1", 0, 0, NULL }, { "System.Email[3].EventList.PowerModule.RedundancyLost.0", ST_FLAG_RW, 0, "System.Email[3].EventList.PowerModule.RedundancyLost.0", 0, 0, NULL }, { "System.Email[3].EventList.PowerModule.ProtectionLost.1", ST_FLAG_RW, 0, "System.Email[3].EventList.PowerModule.ProtectionLost.1", 0, 0, NULL }, { "System.Email[3].EventList.PowerModule.ProtectionLost.0", ST_FLAG_RW, 0, "System.Email[3].EventList.PowerModule.ProtectionLost.0", 0, 0, NULL }, { "System.Email[3].EventList.FirmwareUpgrade", ST_FLAG_RW, 0, "System.Email[3].EventList.FirmwareUpgrade", 0, 0, NULL }, { "System.Email[3].EventList.Environment.CommunicationLost", ST_FLAG_RW, 0, "System.Email[3].EventList.Environment.CommunicationLost", 0, 0, NULL }, { "System.Email[3].EventList.Environment.Notify", ST_FLAG_RW, 0, "System.Email[3].EventList.Environment.Notify", 0, 0, NULL }, { "System.Schedule[0].Off", ST_FLAG_RW, 0, "System.Schedule[0].Off", 0, 0, NULL }, { "System.Schedule[0].On", ST_FLAG_RW, 0, "System.Schedule[0].On", 0, 0, NULL }, { "System.Schedule[1].Off", ST_FLAG_RW, 0, "System.Schedule[1].Off", 0, 0, NULL }, { "System.Schedule[1].On", ST_FLAG_RW, 0, "System.Schedule[1].On", 0, 0, NULL }, { "System.Schedule[2].Off", ST_FLAG_RW, 0, "System.Schedule[2].Off", 0, 0, NULL }, { "System.Schedule[2].On", ST_FLAG_RW, 0, "System.Schedule[2].On", 0, 0, NULL }, { "System.Schedule[3].Off", ST_FLAG_RW, 0, "System.Schedule[3].Off", 0, 0, NULL }, { "System.Schedule[3].On", ST_FLAG_RW, 0, "System.Schedule[3].On", 0, 0, NULL }, { "System.Schedule[4].Off", ST_FLAG_RW, 0, "System.Schedule[4].Off", 0, 0, NULL }, { "System.Schedule[4].On", ST_FLAG_RW, 0, "System.Schedule[4].On", 0, 0, NULL }, { "System.Schedule[5].Off", ST_FLAG_RW, 0, "System.Schedule[5].Off", 0, 0, NULL }, { "System.Schedule[5].On", ST_FLAG_RW, 0, "System.Schedule[5].On", 0, 0, NULL }, { "System.Schedule[6].Off", ST_FLAG_RW, 0, "System.Schedule[6].Off", 0, 0, NULL }, { "System.Schedule[6].On", ST_FLAG_RW, 0, "System.Schedule[6].On", 0, 0, NULL }, { "System.NetworkManagementSystem[0].Name", ST_FLAG_RW, 0, "System.NetworkManagementSystem[0].Name", 0, 0, NULL }, { "System.NetworkManagementSystem[0].HostName", ST_FLAG_RW, 0, "System.NetworkManagementSystem[0].HostName", 0, 0, NULL }, { "System.NetworkManagementSystem[0].TrapCommunity", ST_FLAG_RW, 0, "System.NetworkManagementSystem[0].TrapCommunity", 0, 0, NULL }, { "System.NetworkManagementSystem[0].TrapSnmpVersion", ST_FLAG_RW, 0, "System.NetworkManagementSystem[0].TrapSnmpVersion", 0, 0, NULL }, { "System.NetworkManagementSystem[0].TrapSelectedMibs", ST_FLAG_RW, 0, "System.NetworkManagementSystem[0].TrapSelectedMibs", 0, 0, NULL }, { "System.NetworkManagementSystem[1].Name", ST_FLAG_RW, 0, "System.NetworkManagementSystem[1].Name", 0, 0, NULL }, { "System.NetworkManagementSystem[1].HostName", ST_FLAG_RW, 0, "System.NetworkManagementSystem[1].HostName", 0, 0, NULL }, { "System.NetworkManagementSystem[1].TrapCommunity", ST_FLAG_RW, 0, "System.NetworkManagementSystem[1].TrapCommunity", 0, 0, NULL }, { "System.NetworkManagementSystem[1].TrapSnmpVersion", ST_FLAG_RW, 0, "System.NetworkManagementSystem[1].TrapSnmpVersion", 0, 0, NULL }, { "System.NetworkManagementSystem[1].TrapSelectedMibs", ST_FLAG_RW, 0, "System.NetworkManagementSystem[1].TrapSelectedMibs", 0, 0, NULL }, { "System.NetworkManagementSystem[2].Name", ST_FLAG_RW, 0, "System.NetworkManagementSystem[2].Name", 0, 0, NULL }, { "System.NetworkManagementSystem[2].HostName", ST_FLAG_RW, 0, "System.NetworkManagementSystem[2].HostName", 0, 0, NULL }, { "System.NetworkManagementSystem[2].TrapCommunity", ST_FLAG_RW, 0, "System.NetworkManagementSystem[2].TrapCommunity", 0, 0, NULL }, { "System.NetworkManagementSystem[2].TrapSnmpVersion", ST_FLAG_RW, 0, "System.NetworkManagementSystem[2].TrapSnmpVersion", 0, 0, NULL }, { "System.NetworkManagementSystem[2].TrapSelectedMibs", ST_FLAG_RW, 0, "System.NetworkManagementSystem[2].TrapSelectedMibs", 0, 0, NULL }, { "System.ClientCfg.ShutdownTimer.Select", ST_FLAG_RW, 0, "System.ClientCfg.ShutdownTimer.Select", 0, 0, NULL }, { "System.ClientCfg.ShutdownTimer", ST_FLAG_RW, 0, "System.ClientCfg.ShutdownTimer", 0, 0, NULL }, { "System.ClientCfg.ShutdownDuration", ST_FLAG_RW, 0, "System.ClientCfg.ShutdownDuration", 0, 0, NULL }, { "System.ClientCfg.BroadcastAdmins", ST_FLAG_RW, 0, "System.ClientCfg.BroadcastAdmins", 0, 0, NULL }, { "System.ClientCfg.BroadcastUsers", ST_FLAG_RW, 0, "System.ClientCfg.BroadcastUsers", 0, 0, NULL }, { "Environment.iName", ST_FLAG_RW, 0, "Environment.iName", 0, 0, NULL }, { "Environment.Temperature.Unit", ST_FLAG_RW, 0, "Environment.Temperature.Unit", 0, 0, NULL }, { "Environment.Temperature.Hysteresis", ST_FLAG_RW, 0, "Environment.Temperature.Hysteresis", 0, 0, NULL }, { "Environment.Temperature.Offset", ST_FLAG_RW, 0, "Environment.Temperature.Offset", 0, 0, NULL }, { "Environment.Temperature.HighNotify", ST_FLAG_RW, 0, "Environment.Temperature.HighNotify", 0, 0, NULL }, { "Environment.Temperature.LowNotify", ST_FLAG_RW, 0, "Environment.Temperature.LowNotify", 0, 0, NULL }, { "Environment.Temperature.HighShutdown", ST_FLAG_RW, 0, "Environment.Temperature.HighShutdown", 0, 0, NULL }, { "Environment.Temperature.LowShutdown", ST_FLAG_RW, 0, "Environment.Temperature.LowShutdown", 0, 0, NULL }, { "Environment.Humidity.Hysteresis", ST_FLAG_RW, 0, "Environment.Humidity.Hysteresis", 0, 0, NULL }, { "Environment.Humidity.Offset", ST_FLAG_RW, 0, "Environment.Humidity.Offset", 0, 0, NULL }, { "Environment.Humidity.HighNotify", ST_FLAG_RW, 0, "Environment.Humidity.HighNotify", 0, 0, NULL }, { "Environment.Humidity.LowNotify", ST_FLAG_RW, 0, "Environment.Humidity.LowNotify", 0, 0, NULL }, { "Environment.Humidity.HighShutdown", ST_FLAG_RW, 0, "Environment.Humidity.HighShutdown", 0, 0, NULL }, { "Environment.Humidity.LowShutdown", ST_FLAG_RW, 0, "Environment.Humidity.LowShutdown", 0, 0, NULL }, { "Environment.Input[1].iName", ST_FLAG_RW, 0, "Environment.Input[1].iName", 0, 0, NULL }, { "Environment.Input[1].State[0].Description", ST_FLAG_RW, 0, "Environment.Input[1].State[0].Description", 0, 0, NULL }, { "Environment.Input[1].State[0].Notify", ST_FLAG_RW, 0, "Environment.Input[1].State[0].Notify", 0, 0, NULL }, { "Environment.Input[1].State[0].Shutdown", ST_FLAG_RW, 0, "Environment.Input[1].State[0].Shutdown", 0, 0, NULL }, { "Environment.Input[1].State[1].Description", ST_FLAG_RW, 0, "Environment.Input[1].State[1].Description", 0, 0, NULL }, { "Environment.Input[1].State[1].Notify", ST_FLAG_RW, 0, "Environment.Input[1].State[1].Notify", 0, 0, NULL }, { "Environment.Input[1].State[1].Shutdown", ST_FLAG_RW, 0, "Environment.Input[1].State[1].Shutdown", 0, 0, NULL }, { "Environment.Input[2].iName", ST_FLAG_RW, 0, "Environment.Input[2].iName", 0, 0, NULL }, { "Environment.Input[2].State[0].Description", ST_FLAG_RW, 0, "Environment.Input[2].State[0].Description", 0, 0, NULL }, { "Environment.Input[2].State[0].Notify", ST_FLAG_RW, 0, "Environment.Input[2].State[0].Notify", 0, 0, NULL }, { "Environment.Input[2].State[0].Shutdown", ST_FLAG_RW, 0, "Environment.Input[2].State[0].Shutdown", 0, 0, NULL }, { "Environment.Input[2].State[1].Description", ST_FLAG_RW, 0, "Environment.Input[2].State[1].Description", 0, 0, NULL }, { "Environment.Input[2].State[1].Notify", ST_FLAG_RW, 0, "Environment.Input[2].State[1].Notify", 0, 0, NULL }, { "Environment.Input[2].State[1].Shutdown", ST_FLAG_RW, 0, "Environment.Input[2].State[1].Shutdown", 0, 0, NULL }, { "System.TimeSync", ST_FLAG_RW, 0, "System.TimeSync", 0, 0, NULL }, { "System.TimeNtp", ST_FLAG_RW, 0, "System.TimeNtp", 0, 0, NULL }, { "System.TimeZone", ST_FLAG_RW, 0, "System.TimeZone", 0, 0, NULL }, { "System.TimeDaylight", ST_FLAG_RW, 0, "System.TimeDaylight", 0, 0, NULL }, #endif /* not interresting for NUT */ /* Special case: boolean values that are mapped to ups.status and ups.alarm */ { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.ACPresent", 0, 0, online_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.Charging", 0, 0, charging_info }, /* NMC bug: keep discharging test AFTER charging test */ { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.Discharging", 0, 0, discharging_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.BelowRemainingCapacityLimit", 0, 0, lowbatt_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.Overload", 0, 0, overload_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.NeedReplacement", 0, 0, replacebatt_info }, { NULL, 0, 0, "UPS.PowerConverter.Input[1].PresentStatus.Buck", 0, 0, trim_info }, { NULL, 0, 0, "UPS.PowerConverter.Input[1].PresentStatus.Boost", 0, 0, boost_info }, { NULL, 0, 0, "UPS.PowerConverter.Input[1].PresentStatus.VoltageOutOfRange", 0, 0, vrange_info }, { NULL, 0, 0, "UPS.PowerConverter.Input[1].PresentStatus.FrequencyOutOfRange", 0, 0, frange_info }, { NULL, 0, 0, "UPS.PowerConverter.Input[1].PresentStatus.FuseFault", 0, 0, fuse_fault_info }, { NULL, 0, 0, "UPS.PowerConverter.Input[1].PresentStatus.InternalFailure", 0, 0, internalfailure_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.Good", 0, 0, off_info }, /* { NULL, 0, 0, "UPS.PowerConverter.Input[1].PresentStatus.Used", 0, 0, online_info }, */ { NULL, 0, 0, "UPS.PowerConverter.Input[2].PresentStatus.Used", 0, 0, bypass_aut_info }, /* Automatic bypass */ /* { NULL, 0, 0, "UPS.PowerConverter.Input[3].PresentStatus.Used", 0, 0, onbatt_info }, */ { NULL, 0, 0, "UPS.PowerConverter.Input[4].PresentStatus.Used", 0, 0, bypass_man_info }, /* Manual bypass */ { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.FanFailure", 0, 0, fanfail_info }, { NULL, 0, 0, "UPS.BatterySystem.Battery.PresentStatus.Present", 0, 0, nobattery_info }, { NULL, 0, 0, "UPS.BatterySystem.Charger.PresentStatus.InternalFailure", 0, 0, chargerfail_info }, { NULL, 0, 0, "UPS.BatterySystem.Charger.PresentStatus.VoltageTooHigh", 0, 0, battvolthi_info }, { NULL, 0, 0, "UPS.BatterySystem.Charger.PresentStatus.VoltageTooLow", 0, 0, battvoltlo_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.InternalFailure", 0, 0, internalfailure_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.CommunicationLost", 0, 0, commfault_info }, { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.OverTemperature", 0, 0, overheat_info }, /* { NULL, 0, 0, "UPS.PowerSummary.PresentStatus.ShutdownImminent", 0, 0, shutdownimm_info }, */ /* Battery page */ { "battery.charge", 0, 0, "UPS.PowerSummary.RemainingCapacity", 0, 0, NULL }, { "battery.charge.low", 0, 0, "UPS.PowerSummary.RemainingCapacityLimitSetting", 0, 0, NULL }, { "battery.charge.low", 0, 0, "UPS.PowerSummary.RemainingCapacityLimit", 0, 0, NULL }, /* Read only */ { "battery.charge.restart", 0, 0, "UPS.PowerSummary.RestartLevel", 0, 0, NULL }, { "battery.capacity", 0, 0, "UPS.BatterySystem.Battery.DesignCapacity", 0, 0, mge_battery_capacity }, /* conversion needed from As to Ah */ { "battery.runtime", 0, 0, "UPS.PowerSummary.RunTimeToEmpty", 0, 0, NULL }, { "battery.runtime.low", ST_FLAG_RW, 0, "System.RunTimeToEmptyLimit", 0, 0, NULL }, { "battery.temperature", 0, 0, "UPS.BatterySystem.Battery.Temperature", 0, 0, NULL }, { "battery.packs.external", 0, 0, "UPS.BatterySystem.Battery.Count", 0, 0, NULL }, { "battery.type", ST_FLAG_STATIC, 0, "UPS.PowerSummary.iDeviceChemistry", 0, 0, NULL }, { "battery.type", ST_FLAG_STATIC, 0, "UPS.PowerSummary.iDeviceChemistery", 0, 0, NULL }, /* [sic] */ { "battery.voltage.nominal", ST_FLAG_STATIC, 0, "UPS.BatterySystem.ConfigVoltage", 0, 0, NULL }, { "battery.protection", 0, 0, "UPS.BatterySystem.Battery.DeepDischargeProtection", 0, 0, yes_no_info }, { "battery.energysave", 0, 0, "UPS.PowerConverter.Input[3].EnergySaving", 0, 0, yes_no_info }, /* UPS page */ { "ups.mfr", ST_FLAG_STATIC, 0, "UPS.PowerSummary.iManufacturer", 0, 0, NULL }, { "ups.model", ST_FLAG_STATIC, 0, "System.Description", 0, 0, NULL }, { "ups.model", ST_FLAG_STATIC, 0, "UPS.PowerSummary.iProduct", 0, 0, NULL }, { "ups.model.aux", ST_FLAG_STATIC, 0, "UPS.PowerSummary.iModel", 0, 0, NULL }, { "ups.time", 0, 0, "System.LastAcquisition", 0, 0, split_date_time }, /* -> XML variable System.Location [Computer Room] doesn't map to any NUT variable */ /* -> XML variable System.Contact [Computer Room Manager] doesn't map to any NUT variable */ /* -> XML variable UPS.PowerSummary.iProduct [Evolution] doesn't map to any NUT variable */ /* -> XML variable UPS.PowerSummary.iModel [650] doesn't map to any NUT variable */ { "ups.serial", ST_FLAG_STATIC, 0, "UPS.PowerSummary.iSerialNumber", 0, 0, NULL }, { "ups.firmware", ST_FLAG_STATIC, 0, "UPS.PowerSummary.iVersion", 0, 0, NULL }, { "ups.load", 0, 0, "UPS.PowerSummary.PercentLoad", 0, 0, NULL }, { "ups.load.high", 0, 0, "UPS.Flow[4].ConfigPercentLoad", 0, 0, NULL }, { "ups.delay.shutdown", ST_FLAG_RW, 0, "System.ShutdownDuration", 0, 0, NULL }, { "ups.timer.start", ST_FLAG_RW, 0, "UPS.PowerSummary.DelayBeforeStartup", 0, 0, NULL}, { "ups.timer.shutdown", ST_FLAG_RW, 0, "UPS.PowerSummary.DelayBeforeShutdown", 0, 0, mge_timer_shutdown }, /* Catch shutdown imminent criteria, keep it after UPS.PowerSummary.DelayBeforeShutdown managment */ { NULL, 0, 0, "System.RunTimeToShutdown", 0, 0, mge_shutdown_imminent }, { "ups.timer.reboot", 0, 0, "UPS.PowerSummary.DelayBeforeReboot", 0, 0, NULL }, { "ups.test.result", 0, 0, "UPS.BatterySystem.Battery.Test", 0, 0, mge_test_result_info }, { "ups.test.interval", 0, 0, "UPS.BatterySystem.Battery.TestPeriod", 0, 0, NULL }, { "ups.beeper.status", 0 ,0, "UPS.BatterySystem.Battery.AudibleAlarmControl", 0, 0, mge_beeper_info }, { "ups.beeper.status", 0 ,0, "UPS.PowerSummary.AudibleAlarmControl", 0, 0, mge_beeper_info }, { "ups.temperature", 0, 0, "UPS.PowerSummary.Temperature", 0, 0, NULL }, { "ups.power.nominal", ST_FLAG_STATIC, 0, "UPS.Flow[4].ConfigApparentPower", 0, 0, NULL }, { "ups.power", 0, 0, "UPS.PowerConverter.Output.ApparentPower", 0, 0, NULL }, { "ups.L1.power", 0, 0, "UPS.PowerConverter.Output.Phase[1].ApparentPower", 0, 0, NULL }, { "ups.L2.power", 0, 0, "UPS.PowerConverter.Output.Phase[2].ApparentPower", 0, 0, NULL }, { "ups.L3.power", 0, 0, "UPS.PowerConverter.Output.Phase[3].ApparentPower", 0, 0, NULL }, { "ups.realpower", 0, 0, "UPS.PowerConverter.Output.ActivePower", 0, 0, NULL }, { "ups.L1.realpower", 0, 0, "UPS.PowerConverter.Output.Phase[1].ActivePower", 0, 0, NULL }, { "ups.L2.realpower", 0, 0, "UPS.PowerConverter.Output.Phase[2].ActivePower", 0, 0, NULL }, { "ups.L3.realpower", 0, 0, "UPS.PowerConverter.Output.Phase[3].ActivePower", 0, 0, NULL }, { "ups.realpower.nominal", ST_FLAG_STATIC, 0, "UPS.Flow[4].ConfigActivePower", 0, 0, NULL }, { "ups.start.auto", 0, 0, "UPS.PowerConverter.Input[1].AutomaticRestart", 0, 0, yes_no_info }, { "ups.start.battery", 0, 0, "UPS.PowerConverter.Input[3].StartOnBattery", 0, 0, yes_no_info }, { "ups.start.reboot", 0, 0, "UPS.PowerConverter.Output.ForcedReboot", 0, 0, yes_no_info }, { "ups.type", ST_FLAG_STATIC, 0, "UPS.PowerConverter.ConverterType", 0, 0, mge_upstype_conversion }, /* Input page */ { "input.voltage", 0, 0, "UPS.PowerConverter.Input[1].Voltage", 0, 0, NULL }, { "input.L1-N.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[1].Voltage", 0, 0, NULL }, { "input.L2-N.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[2].Voltage", 0, 0, NULL }, { "input.L3-N.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[3].Voltage", 0, 0, NULL }, { "input.L1-L2.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[12].Voltage", 0, 0, NULL }, { "input.L2-L3.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[23].Voltage", 0, 0, NULL }, { "input.L3-L1.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[31].Voltage", 0, 0, NULL }, { "input.L1-L2.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[11].Voltage", 0, 0, convert_deci }, { "input.L2-L3.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[22].Voltage", 0, 0, convert_deci }, { "input.L3-L1.voltage", 0, 0, "UPS.PowerConverter.Input[1].Phase[33].Voltage", 0, 0, convert_deci }, { "input.voltage.nominal", 0, 0, "UPS.Flow[1].ConfigVoltage", 0, 0, NULL }, { "input.current", 0, 0, "UPS.PowerConverter.Input[1].Current", 0, 0, NULL }, { "input.L1.current", 0, 0, "UPS.PowerConverter.Input[1].Phase[1].Current", 0, 0, convert_deci }, { "input.L2.current", 0, 0, "UPS.PowerConverter.Input[1].Phase[2].Current", 0, 0, convert_deci }, { "input.L3.current", 0, 0, "UPS.PowerConverter.Input[1].Phase[3].Current", 0, 0, convert_deci }, { "input.current.nominal", 0, 0, "UPS.Flow[1].ConfigCurrent", 0, 0, NULL }, { "input.frequency", 0, 0, "UPS.PowerConverter.Input[1].Frequency", 0, 0, NULL }, { "input.frequency.nominal", 0, 0, "UPS.Flow[1].ConfigFrequency", 0, 0, NULL }, { "input.voltage.extended", 0, 0, "UPS.PowerConverter.Output.ExtendedVoltageMode", 0, 0, yes_no_info }, { "input.frequency.extended", 0, 0, "UPS.PowerConverter.Output.ExtendedFrequencyMode", 0, 0, yes_no_info }, /* same as "input.transfer.boost.low" */ { "input.transfer.low", 0, 0, "UPS.PowerConverter.Output.LowVoltageTransfer", 0, 0, NULL }, { "input.transfer.boost.low", 0, 0, "UPS.PowerConverter.Output.LowVoltageBoostTransfer", 0, 0, NULL }, { "input.transfer.boost.high", 0, 0, "UPS.PowerConverter.Output.HighVoltageBoostTransfer", 0, 0, NULL }, { "input.transfer.trim.low", 0, 0, "UPS.PowerConverter.Output.LowVoltageBuckTransfer", 0, 0, NULL }, /* same as "input.transfer.trim.high" */ { "input.transfer.high", 0, 0, "UPS.PowerConverter.Output.HighVoltageTransfer", 0, 0, NULL }, { "input.transfer.trim.high", 0, 0, "UPS.PowerConverter.Output.HighVoltageBuckTransfer", 0, 0, NULL }, { "input.sensitivity", 0, 0, "UPS.PowerConverter.Output.SensitivityMode", 0, 0, mge_sensitivity_info }, /* Bypass page */ { "input.bypass.voltage", 0, 0, "UPS.PowerConverter.Input[2].Voltage", 0, 0, NULL }, { "input.bypass.L1-N.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[1].Voltage", 0, 0, NULL }, { "input.bypass.L2-N.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[2].Voltage", 0, 0, NULL }, { "input.bypass.L3-N.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[3].Voltage", 0, 0, NULL }, { "input.bypass.L1-L2.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[12].Voltage", 0, 0, NULL }, { "input.bypass.L2-L3.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[23].Voltage", 0, 0, NULL }, { "input.bypass.L3-L1.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[31].Voltage", 0, 0, NULL }, { "input.bypass.L1-L2.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[11].Voltage", 0, 0, NULL }, { "input.bypass.L2-L3.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[22].Voltage", 0, 0, NULL }, { "input.bypass.L3-L1.voltage", 0, 0, "UPS.PowerConverter.Input[2].Phase[33].Voltage", 0, 0, NULL }, { "input.bypass.voltage.nominal", 0, 0, "UPS.Flow[2].ConfigVoltage", 0, 0, NULL }, { "input.bypass.current", 0, 0, "UPS.PowerConverter.Input[2].Current", 0, 0, NULL }, { "input.bypass.L1.current", 0, 0, "UPS.PowerConverter.Input[2].Phase[1].Current", 0, 0, NULL }, { "input.bypass.L2.current", 0, 0, "UPS.PowerConverter.Input[2].Phase[2].Current", 0, 0, NULL }, { "input.bypass.L3.current", 0, 0, "UPS.PowerConverter.Input[2].Phase[3].Current", 0, 0, NULL }, { "input.bypass.current.nominal", 0, 0, "UPS.Flow[2].ConfigCurrent", 0, 0, NULL }, { "input.bypass.frequency", 0, 0, "UPS.PowerConverter.Input[2].Frequency", 0, 0, NULL }, { "input.bypass.frequency.nominal", 0, 0, "UPS.Flow[2].ConfigFrequency", 0, 0, NULL }, /* Output page */ { "output.voltage", 0, 0, "UPS.PowerConverter.Output.Voltage", 0, 0, NULL }, { "output.L1-N.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[1].Voltage", 0, 0, NULL }, { "output.L2-N.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[2].Voltage", 0, 0, NULL }, { "output.L3-N.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[3].Voltage", 0, 0, NULL }, { "output.L1-L2.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[12].Voltage", 0, 0, NULL }, { "output.L2-L3.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[23].Voltage", 0, 0, NULL }, { "output.L3-L1.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[31].Voltage", 0, 0, NULL }, { "output.L1-L2.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[11].Voltage", 0, 0, ignore_if_zero }, { "output.L2-L3.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[22].Voltage", 0, 0, ignore_if_zero }, { "output.L3-L1.voltage", 0, 0, "UPS.PowerConverter.Output.Phase[33].Voltage", 0, 0, ignore_if_zero }, { "output.voltage.nominal", 0, 0, "UPS.Flow[4].ConfigVoltage", 0, 0, NULL }, { "output.current", 0, 0, "UPS.PowerConverter.Output.Current", 0, 0, NULL }, { "output.L1.current", 0, 0, "UPS.PowerConverter.Output.Phase[1].Current", 0, 0, convert_deci }, { "output.L2.current", 0, 0, "UPS.PowerConverter.Output.Phase[2].Current", 0, 0, convert_deci }, { "output.L3.current", 0, 0, "UPS.PowerConverter.Output.Phase[3].Current", 0, 0, convert_deci }, { "output.current.nominal", 0, 0, "UPS.Flow[4].ConfigCurrent", 0, 0, NULL }, { "output.frequency", 0, 0, "UPS.PowerConverter.Output.Frequency", 0, 0, NULL }, { "output.frequency.nominal", 0, 0, "UPS.Flow[4].ConfigFrequency", 0, 0, NULL }, { "output.powerfactor", 0, 0, "UPS.PowerConverter.Output.PowerFactor", 0, 0, mge_powerfactor_conversion }, /* Ambient page */ { "ambient.humidity", 0, 0, "Environment.Humidity", 0, 0, NULL }, { "ambient.humidity.high", ST_FLAG_RW, 0, "Environment.Humidity.HighThreshold", 0, 0, NULL }, { "ambient.humidity.low", ST_FLAG_RW, 0, "Environment.Humidity.LowThreshold", 0, 0, NULL }, { "ambient.humidity.maximum", 0, 0, "Environment.PresentStatus.HighHumidity", 0, 0, mge_ambient_info }, { "ambient.humidity.minimum", 0, 0, "Environment.PresentStatus.LowHumidity", 0, 0, mge_ambient_info }, { "ambient.temperature", 0, 0, "Environment.Temperature", 0, 0, NULL }, { "ambient.temperature.high", ST_FLAG_RW, 0, "Environment.Temperature.HighThreshold", 0, 0, NULL }, { "ambient.temperature.low", ST_FLAG_RW, 0, "Environment.Temperature.LowThreshold", 0, 0, NULL }, { "ambient.temperature.maximum", 0, 0, "Environment.PresentStatus.HighTemperature", 0, 0, mge_ambient_info }, { "ambient.temperature.minimum", 0, 0, "Environment.PresentStatus.LowTemperature", 0, 0, mge_ambient_info }, { "ambient.contacts.1.status", 0, 0, "Environment.Input[1].PresentStatus.State", 0, 0, mge_drycontact_info }, { "ambient.contacts.2.status", 0, 0, "Environment.Input[2].PresentStatus.State", 0, 0, mge_drycontact_info }, /* Outlet page (using MGE UPS SYSTEMS - PowerShare technology) */ { "outlet.id", 0, 0, "UPS.OutletSystem.Outlet[1].OutletID", 0, 0, NULL }, { "outlet.desc", 0, 0, "UPS.OutletSystem.Outlet[1].iName", 0, 0, NULL }, { "outlet.switchable", 0, 0, "UPS.OutletSystem.Outlet[1].PresentStatus.Switchable", 0, 0, yes_no_info }, { "outlet.1.id", 0, 0, "UPS.OutletSystem.Outlet[2].OutletID", 0, 0, NULL }, { "outlet.1.desc", 0, 0, "UPS.OutletSystem.Outlet[2].iName", 0, 0, NULL }, { "outlet.1.switchable", 0, 0, "UPS.OutletSystem.Outlet[2].PresentStatus.Switchable", 0, 0, yes_no_info }, { "outlet.1.status", 0, 0, "UPS.OutletSystem.Outlet[2].PresentStatus.SwitchOnOff", 0, 0, on_off_info }, /* For low end models, with 1 non backup'ed outlet */ { "outlet.1.status", 0, 0, "UPS.PowerSummary.PresentStatus.ACPresent", 0, 0, NULL }, /* on_off_info */ { "outlet.1.battery.charge.low", 0, 0, "UPS.OutletSystem.Outlet[2].RemainingCapacityLimit", 0, 0, NULL }, { "outlet.1.timer.start", 0, 0, "UPS.OutletSystem.Outlet[2].DelayBeforeStartup", 0, 0, NULL }, { "outlet.1.timer.shutdown", 0, 0, "UPS.OutletSystem.Outlet[2].DelayBeforeShutdown", 0, 0, NULL }, { "outlet.1.delay.start", 0, 0, "UPS.OutletSystem.Outlet[2].StartupTimer", 0, 0, NULL }, /* { "outlet.1.delay.shutdown", 0, 0, "UPS.OutletSystem.Outlet[2].ShutdownTimer", 0, 0, NULL }, */ { "outlet.1.delay.shutdown", ST_FLAG_RW, 0, "System.Outlet[2].ShutdownDuration", 0, 0, NULL }, { "outlet.2.id", 0, 0, "UPS.OutletSystem.Outlet[3].OutletID", 0, 0, NULL }, { "outlet.2.desc", 0, 0, "UPS.OutletSystem.Outlet[3].iName", 0, 0, NULL }, { "outlet.2.switchable", 0, 0, "UPS.OutletSystem.Outlet[3].PresentStatus.Switchable", 0, 0, yes_no_info }, { "outlet.2.status", 0, 0, "UPS.OutletSystem.Outlet[3].PresentStatus.SwitchOnOff", 0, 0, on_off_info }, { "outlet.2.battery.charge.low", 0, 0, "UPS.OutletSystem.Outlet[3].RemainingCapacityLimit", 0, 0, NULL }, { "outlet.2.timer.start", 0, 0, "UPS.OutletSystem.Outlet[3].DelayBeforeStartup", 0, 0, NULL }, { "outlet.2.timer.shutdown", 0, 0, "UPS.OutletSystem.Outlet[3].DelayBeforeShutdown", 0, 0, NULL }, { "outlet.2.delay.start", 0, 0, "UPS.OutletSystem.Outlet[3].StartupTimer", 0, 0, NULL }, /* { "outlet.2.delay.shutdown", 0, 0, "UPS.OutletSystem.Outlet[3].ShutdownTimer", 0, 0, NULL }, */ { "outlet.2.delay.shutdown", ST_FLAG_RW, 0, "System.Outlet[3].ShutdownDuration", 0, 0, NULL }, /* For newer ePDU Monitored */ { "outlet.1.desc", 0, 0, "PDU.OutletSystem.Outlet[1].iName", 0, 0, NULL }, { "outlet.1.current", 0, 0, "PDU.OutletSystem.Outlet[1].Current", 0, 0, convert_deci }, /* FIXME: also map these? * "PDU.OutletSystem.Outlet[1].CurrentLimit" => settable, triggers CurrentTooHigh * "PDU.OutletSystem.Outlet[1].PresentStatus.CurrentTooHigh" (0/1) */ { "outlet.2.desc", 0, 0, "PDU.OutletSystem.Outlet[2].iName", 0, 0, NULL }, { "outlet.2.current", 0, 0, "PDU.OutletSystem.Outlet[2].Current", 0, 0, convert_deci }, { "outlet.3.desc", 0, 0, "PDU.OutletSystem.Outlet[3].iName", 0, 0, NULL }, { "outlet.3.current", 0, 0, "PDU.OutletSystem.Outlet[3].Current", 0, 0, convert_deci }, { "outlet.4.desc", 0, 0, "PDU.OutletSystem.Outlet[2].iName", 0, 0, NULL }, { "outlet.4.current", 0, 0, "PDU.OutletSystem.Outlet[2].Current", 0, 0, convert_deci }, { "outlet.5.desc", 0, 0, "PDU.OutletSystem.Outlet[3].iName", 0, 0, NULL }, { "outlet.5.current", 0, 0, "PDU.OutletSystem.Outlet[3].Current", 0, 0, convert_deci }, { "outlet.6.desc", 0, 0, "PDU.OutletSystem.Outlet[2].iName", 0, 0, NULL }, { "outlet.6.current", 0, 0, "PDU.OutletSystem.Outlet[2].Current", 0, 0, convert_deci }, { "outlet.7.desc", 0, 0, "PDU.OutletSystem.Outlet[3].iName", 0, 0, NULL }, { "outlet.7.current", 0, 0, "PDU.OutletSystem.Outlet[3].Current", 0, 0, convert_deci }, { "outlet.8.desc", 0, 0, "PDU.OutletSystem.Outlet[2].iName", 0, 0, NULL }, { "outlet.8.current", 0, 0, "PDU.OutletSystem.Outlet[2].Current", 0, 0, convert_deci }, { NULL, 0, 0, NULL, 0, 0, NULL } }; /* A start-element callback for element with given namespace/name. */ static int mge_xml_startelm_cb(void *userdata, int parent, const char *nspace, const char *name, const char **atts) { int state = _UNEXPECTED; NUT_UNUSED_VARIABLE(userdata); NUT_UNUSED_VARIABLE(nspace); switch(parent) { case ROOTPARENT: if (!strcasecmp(name, "PRODUCT_INFO")) { /* name="Network Management Card" type="Mosaic M" version="BA" */ /* name="Network Management Card" type="Transverse" version="GB (SN 49EH29101)" */ /* name="Monitored ePDU" type="Monitored ePDU" version="Version Upgrade" */ /* name="PDU Network Management Card" type="SCOB" version="02.00.0036" signature="34008876" protocol="XML.V4" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "name")) { snprintf(val, sizeof(val), "%s", atts[i+1]); } if (!strcasecmp(atts[i], "type")) { snprintfcat(val, sizeof(val), "/%s", atts[i+1]); if (!strcasecmp(atts[i+1], "Transverse")) { mge_ambient_value = 1; } else if (strstr(atts[i+1], "ePDU")) { dstate_setinfo("device.type", "pdu"); } } if (!strcasecmp(atts[i], "version")) { char *s; snprintfcat(val, sizeof(val), "/%s", atts[i+1]); s = strstr(val, " (SN "); if (s) { dstate_setinfo("ups.serial", "%s", str_rtrim(s + 5, ')')); s[0] = '\0'; } dstate_setinfo("ups.firmware.aux", "%s", val); } /* netxml-ups currently only supports XML version 3 (for UPS), * and not version 4 (for UPS and PDU)! */ if (!strcasecmp(atts[i], "protocol")) { if (!strcasecmp(atts[i+1], "XML.V4")) { fatalx(EXIT_FAILURE, "XML v4 protocol is not supported!"); } } } state = PRODUCT_INFO; break; } if (!strcasecmp(name, "SUMMARY")) { state = SUMMARY; break; } if (!strcasecmp(name, "GET_OBJECT")) { state = GET_OBJECT; break; } if (!strcasecmp(name, "SET_OBJECT")) { state = SET_OBJECT; break; } if (!strcasecmp(name, "ALARM")) { int i; var[0] = val[0] = '\0'; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "object")) { snprintf(var, sizeof(var), "%s", atts[i+1]); } if (!strcasecmp(atts[i], "value")) { snprintf(val, sizeof(var), "%s", atts[i+1]); } if (!strcasecmp(atts[i], "date")) { dstate_setinfo("ups.time", "%s", split_date_time(atts[i+1])); } } state = ALARM; break; } if (!strcasecmp(name, "XML-CLIENT")) { state = XML_CLIENT; break; } break; case PRODUCT_INFO: if (!strcasecmp(name, "SUMMARY")) { state = PI_SUMMARY; break; } if (!strcasecmp(name, "ALARMS")) { state = PI_ALARMS; break; } if (!strcasecmp(name, "MANAGEMENT")) { state = PI_MANAGEMENT; break; } if ( (!strcasecmp(name, "UPS_DATA")) || (!strcasecmp(name, "DEV_DATA")) ) { state = PI_UPS_DATA; break; } break; case PI_SUMMARY: if (!strcasecmp(name, "HTML_PROPERTIES_PAGE")) { /* url="mgeups/default.htm" */ state = PI_HTML_PROPERTIES_PAGE; break; } if (!strcasecmp(name, "XML_SUMMARY_PAGE")) { /* url="upsprop.xml" or url="ws/summary.xml" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "url")) { free(mge_xml_subdriver.summary); mge_xml_subdriver.summary = strdup(url_convert(atts[i+1])); } } state = PI_XML_SUMMARY_PAGE; break; } if (!strcasecmp(name, "CENTRAL_CFG")) { /* url="config.xml" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "url")) { free(mge_xml_subdriver.configure); mge_xml_subdriver.configure = strdup(url_convert(atts[i+1])); } } state = PI_CENTRAL_CFG; break; } if (!strcasecmp(name, "CSV_LOGS")) { /* url="logevent.csv" dateRange="no" eventFiltering="no" */ state = PI_CSV_LOGS; break; } break; case PI_ALARMS: if (!strcasecmp(name, "SUBSCRIPTION")) { /* url="subscribe.cgi" security="basic" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "url")) { free(mge_xml_subdriver.subscribe); mge_xml_subdriver.subscribe = strdup(url_convert(atts[i+1])); } } state = PI_SUBSCRIPTION; break; } if (!strcasecmp(name, "POLLING")) { /* url="mgeups/lastalarms.cgi" security="none" */ state = PI_POLLING; break; } break; case PI_MANAGEMENT: if (!strcasecmp(name, "MANAGEMENT_PAGE")) { /* name="Manager list" id="ManagerList" url="FS/FLASH0/TrapReceiverList.cfg" security="none" */ /* name="Shutdown criteria settings" id="Shutdown" url="FS/FLASH0/ShutdownParameters.cfg" security="none" */ /* name="Network settings" id="Network" url="FS/FLASH0/NetworkSettings.cfg" security="none" */ /* name="Centralized configuration settings" id="ClientCfg" url="FS/FLASH0/CentralizedConfig.cfg" security="none" */ state = PI_MANAGEMENT_PAGE; break; } if (!strcasecmp(name, "XML_MANAGEMENT_PAGE")) { /* name="Set Card Time" id="SetTime" url="management/set_time.xml" security="none" */ state = PI_XML_MANAGEMENT_PAGE; break; } break; case PI_UPS_DATA: if (!strcasecmp(name, "GET_OBJECT")) { /* url="getvalue.cgi" security="none" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "url")) { free(mge_xml_subdriver.getobject); mge_xml_subdriver.getobject = strdup(url_convert(atts[i+1])); } } state = PI_GET_OBJECT; break; } if (!strcasecmp(name, "SET_OBJECT")) { /* url="setvalue.cgi" security="ssl" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "url")) { free(mge_xml_subdriver.setobject); mge_xml_subdriver.setobject = strdup(url_convert(atts[i+1])); } } state = PI_SET_OBJECT; break; } break; case SUMMARY: if (!strcasecmp(name, "OBJECT")) { /* name="UPS.PowerSummary.iProduct" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "name")) { snprintf(var, sizeof(var), "%s", atts[i+1]); val[0] = '\0'; /*don't inherit something from another object */ } } state = SU_OBJECT; break; } break; case GET_OBJECT: if (!strcasecmp(name, "OBJECT")) { /* name="System.RunTimeToEmptyLimit" unit="s" access="RW" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "name")) { snprintf(var, sizeof(var), "%s", atts[i+1]); val[0] = '\0'; /*don't inherit something from another object */ } if (!strcasecmp(atts[i], "access")) { /* do something with RO/RW access? */ } } state = GO_OBJECT; break; } break; case XML_CLIENT: if (!strcasecmp(name, "GENERAL")) { state = XC_GENERAL; break; } /* FIXME? Is the fall-through to handling "GENERAL" intended? * was so in legacy code before the goto below... */ goto fallthrough_case_general; case XC_GENERAL: fallthrough_case_general: if (!strcasecmp(name, "STARTUP")) { /* config="CENTRALIZED" */ state = XC_STARTUP; break; } if (!strcasecmp(name, "SHUTDOWN")) { /* shutdownTimer="NONE" shutdownDuration="150" */ int i; for (i = 0; atts[i] && atts[i+1]; i += 2) { if (!strcasecmp(atts[i], "shutdownTimer")) { dstate_setinfo("driver.timer.shutdown", "%s", atts[i+1]); } if (!strcasecmp(atts[i], "shutdownDuration")) { dstate_setinfo("driver.delay.shutdown", "%s", atts[i+1]); } } state = XC_SHUTDOWN; break; } if (!strcasecmp(name, "BROADCAST")) { /* admins="ON" users="ON" */ state = XC_BROADCAST; break; } } upsdebugx(3, "%s: name <%s> (parent = %d, state = %d)", __func__, name, parent, state); return state; } /* Character data callback; may return non-zero to abort the parse. */ static int mge_xml_cdata_cb(void *userdata, int state, const char *cdata, size_t len) { NUT_UNUSED_VARIABLE(userdata); /* skip empty lines */ if ((len == 1) && (cdata[0] == '\n')) { upsdebugx(3, "%s: cdata ignored (state = %d)", __func__, state); return 0; } upsdebugx(3, "%s: cdata [%.*s] (state = %d)", __func__, (int)len, cdata, state); switch(state) { case ALARM: upsdebugx(2, "ALARM%.*s", (int)len, cdata); break; case SU_OBJECT: case GO_OBJECT: snprintfcat(val, sizeof(val), "%.*s", (int)len, cdata); break; } return 0; } /* End element callback; may return non-zero to abort the parse. */ static int mge_xml_endelm_cb(void *userdata, int state, const char *nspace, const char *name) { xml_info_t *info; const char *value; NUT_UNUSED_VARIABLE(userdata); NUT_UNUSED_VARIABLE(nspace); /* ignore objects for which no value was set */ if (strlen(val) == 0) { upsdebugx(3, "%s: name ignored, no value set (state = %d)", __func__, name, state); return 0; } upsdebugx(3, "%s: name (state = %d)", __func__, name, state); switch(state) { case ALARM: case SU_OBJECT: case GO_OBJECT: for (info = mge_xml2nut; info->xmlname != NULL; info++) { if (strcasecmp(var, info->xmlname)) { continue; } upsdebugx(3, "-> XML variable %s [%s] maps to NUT variable %s", var, val, info->nutname); if ((info->nutflags & ST_FLAG_STATIC) && dstate_getinfo(info->nutname)) { return 0; } if (info->convert) { value = info->convert(val); upsdebugx(4, "-> XML variable %s [%s] which maps to NUT variable %s was converted to value %s for the NUT driver state", var, val, info->nutname, value); } else { value = val; } if (value != NULL) { dstate_setinfo(info->nutname, "%s", value); } return 0; } upsdebugx(3, "-> XML variable %s [%s] doesn't map to any NUT variable", var, val); break; case PI_GET_OBJECT: case GET_OBJECT: /* We've just got a snapshot of all runtime data, saved well into * dstate's already, so can estimate missing values if needed. */ /* For phase setup, we assume it does not change during run-time. * Essentially this means that once we've detected it is N-phase, * it stays this way for the rest of the driver run/life-time. */ /* To change this behavior just flip the maychange flag to "1" */ dstate_detect_phasecount("input.", 1, &inited_phaseinfo_in, &num_inphases, 0); dstate_detect_phasecount("input.bypass.", 1, &inited_phaseinfo_bypass, &num_bypassphases, 0); dstate_detect_phasecount("output.", 1, &inited_phaseinfo_out, &num_outphases, 0); break; } return 0; } subdriver_t mge_xml_subdriver = { MGE_XML_VERSION, MGE_XML_INITUPS, MGE_XML_INITINFO, NULL, NULL, NULL, NULL, NULL, mge_xml_startelm_cb, mge_xml_cdata_cb, mge_xml_endelm_cb, }; const char *vname_nut2mge_xml(const char *name) { assert(NULL != name); size_t i = 0; for (; i < sizeof(mge_xml2nut) / sizeof(xml_info_t); ++i) { xml_info_t *info = mge_xml2nut + i; if (NULL != info->nutname) if (0 == strcasecmp(name, info->nutname)) return info->xmlname; } return NULL; } const char *vname_mge_xml2nut(const char *name) { assert(NULL != name); size_t i = 0; for (; i < sizeof(mge_xml2nut) / sizeof(xml_info_t); ++i) { xml_info_t *info = mge_xml2nut + i; if (NULL != info->xmlname) if (0 == strcasecmp(name, info->xmlname)) return info->nutname; } return NULL; } char *vvalue_mge_xml2nut(const char *name, const char *value, size_t len) { assert(NULL != name); size_t i = 0; for (; i < sizeof(mge_xml2nut) / sizeof(xml_info_t); ++i) { xml_info_t *info = mge_xml2nut + i; if (NULL != info->nutname) if (0 == strcasecmp(name, info->nutname)) { /* Copy value */ char *vcpy = (char *)malloc((len + 1) * sizeof(char)); if (NULL == vcpy) return vcpy; memcpy(vcpy, value, len * sizeof(char)); vcpy[len] = '\0'; /* Convert */ if (NULL != info->convert) { char *vconv = (char *)info->convert(vcpy); free(vcpy); return vconv; } else return vcpy; } } return NULL; } void vname_register_rw(void) { size_t i = 0; for (; i < sizeof(mge_xml2nut) / sizeof(xml_info_t); ++i) { xml_info_t *info = mge_xml2nut + i; if (NULL != info->nutname && info->nutflags & ST_FLAG_RW) { dstate_setinfo(info->nutname, "%s", ""); dstate_setflags(info->nutname, ST_FLAG_RW); } } }