nut/drivers/tripplite-hid.c

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2010-03-25 23:20:59 +00:00
/* tripplite-hid.c - data to monitor Tripp Lite USB/HID devices with NUT
*
* Copyright (C)
* 2003 - 2005 Arnaud Quette <arnaud.quette@free.fr>
* 2005 - 2006 Peter Selinger <selinger@users.sourceforge.net>
* 2008 - 2009 Arjen de Korte <adkorte-guest@alioth.debian.org>
*
* Sponsored by MGE UPS SYSTEMS <http://www.mgeups.com>
*
* 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 "main.h"
#include "usbhid-ups.h"
#include "tripplite-hid.h"
#include "usb-common.h"
#define TRIPPLITE_HID_VERSION "TrippLite HID 0.4"
/* FIXME: experimental flag to be put in upsdrv_info */
/* For some devices, the reported battery voltage is off by
* factor of 10 (due to an error in the report descriptor),
* so we need to apply a scale factor to it to get the actual
* battery voltage. By default, the factor is 1 (no scaling).
*/
static double battery_scale = 1.0;
/* Specific handlers for USB device matching */
static void *battery_scale_1dot0()
{
/* FIXME: we could remove this one since it's the default! */
battery_scale = 1.0;
return NULL;
}
static void *battery_scale_0dot1()
{
battery_scale = 0.1;
return NULL;
}
/* TrippLite */
#define TRIPPLITE_VENDORID 0x09ae
/* Hewlett Packard */
#define HP_VENDORID 0x03f0
/* USB IDs device table */
static usb_device_id_t tripplite_usb_device_table[] = {
/* e.g. TrippLite AVR550U */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x1003), battery_scale_0dot1 },
/* e.g. TrippLite AVR750U */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x1007), battery_scale_0dot1 },
/* e.g. TrippLite ECO550UPS */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x1008), battery_scale_0dot1 },
/* e.g. TrippLite OMNI1000LCD */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x2005), battery_scale_0dot1 },
/* e.g. TrippLite OMNI900LCD */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x2007), battery_scale_0dot1 },
/* e.g. TrippLite smart2200RMXL2U */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x3012), battery_scale_1dot0 },
/* e.g. ? */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x3014), battery_scale_1dot0 },
/* e.g. TrippLite SmartOnline SU1500RTXL2UA (older unit?) */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x4001), battery_scale_1dot0 },
/* e.g. TrippLite SmartOnline SU6000RT4U? */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x4002), battery_scale_1dot0 },
/* e.g. TrippLite SmartOnline SU1500RTXL2ua */
{ USB_DEVICE(TRIPPLITE_VENDORID, 0x4003), battery_scale_1dot0 },
/* HP R/T 2200 INTL (like SMART2200RMXL2U) */
{ USB_DEVICE(HP_VENDORID, 0x1f0a), battery_scale_1dot0 },
/* HP T750 INTL */
{ USB_DEVICE(HP_VENDORID, 0x1f06), battery_scale_1dot0 },
/* Terminating entry */
{ -1, -1, NULL }
};
/* returns statically allocated string - must not use it again before
done with result! */
static char *tripplite_chemistry_fun(double value)
{
static char buf[20];
const char *model;
model = dstate_getinfo("ups.productid");
/* Workaround for AVR 550U firmware bug */
if (!strcmp(model, "1003")) {
return "unknown";
}
/* Workaround for OMNI1000LCD firmware bug */
if (!strcmp(model, "2005")) {
return "unknown";
}
return HIDGetIndexString(udev, (int)value, buf, sizeof(buf));
}
static info_lkp_t tripplite_chemistry[] = {
{ 0, NULL, tripplite_chemistry_fun }
};
/* returns statically allocated string - must not use it again before
done with result! */
static char *tripplite_battvolt_fun(double value)
{
static char buf[8];
snprintf(buf, sizeof(buf), "%.1f", battery_scale * value);
return buf;
}
static info_lkp_t tripplite_battvolt[] = {
{ 0, NULL, tripplite_battvolt_fun }
};
/* --------------------------------------------------------------- */
/* Vendor-specific usage table */
/* --------------------------------------------------------------- */
/* TRIPPLITE usage table */
static usage_lkp_t tripplite_usage_lkp[] = {
/* currently unknown:
ffff0010, 00ff0001, ffff007d, ffff00c0, ffff00c1, ffff00c2,
ffff00c3, ffff00c4, ffff00c5, ffff00d2, ffff0091, ffff00c7 */
{ "TLLowVoltageTransferMax", 0xffff0057 },
{ "TLLowVoltageTransferMin", 0xffff0058 },
{ "TLHighVoltageTransferMax", 0xffff0059 },
{ "TLHighVoltageTransferMin", 0xffff005a },
{ "TLWatchdog", 0xffff0092 },
/* it looks like Tripp Lite confused pages 0x84 and 0x85 for the
following 4 items, on some OMNI1000LCD devices. */
{ "TLCharging", 0x00840044 }, /* conflicts with HID spec! */
{ "TLDischarging", 0x00840045 }, /* conflicts with HID spec! */
{ "TLNeedReplacement", 0x0084004b },
{ "TLACPresent", 0x008400d0 },
{ NULL, 0 }
};
static usage_tables_t tripplite_utab[] = {
tripplite_usage_lkp, /* tripplite lookup table; make sure this is first */
hid_usage_lkp, /* generic lookup table */
NULL,
};
/* --------------------------------------------------------------- */
/* HID2NUT lookup table */
/* --------------------------------------------------------------- */
/* HID2NUT lookup table */
static hid_info_t tripplite_hid2nut[] = {
#ifdef USBHID_UPS_TRIPPLITE_DEBUG
/* unmapped variables - meaning unknown */
{ "UPS.Flow.0xffff0097", 0, 0, "UPS.Flow.0xffff0097", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff0075", 0, 0, "UPS.0xffff0010.[1].0xffff0075", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff0076", 0, 0, "UPS.0xffff0010.[1].0xffff0076", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff007c", 0, 0, "UPS.0xffff0010.[1].0xffff007c", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff007d", 0, 0, "UPS.0xffff0010.[1].0xffff007d", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e0", 0, 0, "UPS.0xffff0010.[1].0xffff00e0", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e1", 0, 0, "UPS.0xffff0010.[1].0xffff00e1", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e2", 0, 0, "UPS.0xffff0010.[1].0xffff00e2", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e3", 0, 0, "UPS.0xffff0010.[1].0xffff00e3", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e4", 0, 0, "UPS.0xffff0010.[1].0xffff00e4", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e5", 0, 0, "UPS.0xffff0010.[1].0xffff00e5", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e6", 0, 0, "UPS.0xffff0010.[1].0xffff00e6", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e7", 0, 0, "UPS.0xffff0010.[1].0xffff00e7", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0010.[1].0xffff00e8", 0, 0, "UPS.0xffff0010.[1].0xffff00e8", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00c0", 0, 0, "UPS.0xffff0015.[1].0xffff00c0", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00c1", 0, 0, "UPS.0xffff0015.[1].0xffff00c1", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00c2", 0, 0, "UPS.0xffff0015.[1].0xffff00c2", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00c3", 0, 0, "UPS.0xffff0015.[1].0xffff00c3", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00c4", 0, 0, "UPS.0xffff0015.[1].0xffff00c4", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00c5", 0, 0, "UPS.0xffff0015.[1].0xffff00c5", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00d2", 0, 0, "UPS.0xffff0015.[1].0xffff00d2", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00d3", 0, 0, "UPS.0xffff0015.[1].0xffff00d3", NULL, "%.0f", 0, NULL },
{ "UPS.0xffff0015.[1].0xffff00d6", 0, 0, "UPS.0xffff0015.[1].0xffff00d6", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff0056", 0, 0, "UPS.OutletSystem.Outlet.0xffff0056", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff0081", 0, 0, "UPS.OutletSystem.Outlet.0xffff0081", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff0091", 0, 0, "UPS.OutletSystem.Outlet.0xffff0091", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff0093", 0, 0, "UPS.OutletSystem.Outlet.0xffff0093", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff0095", 0, 0, "UPS.OutletSystem.Outlet.0xffff0095", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff0096", 0, 0, "UPS.OutletSystem.Outlet.0xffff0096", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff0098", 0, 0, "UPS.OutletSystem.Outlet.0xffff0098", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff00a2", 0, 0, "UPS.OutletSystem.Outlet.0xffff00a2", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff00a4", 0, 0, "UPS.OutletSystem.Outlet.0xffff00a4", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff00a7", 0, 0, "UPS.OutletSystem.Outlet.0xffff00a7", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff00a9", 0, 0, "UPS.OutletSystem.Outlet.0xffff00a9", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff00aa", 0, 0, "UPS.OutletSystem.Outlet.0xffff00aa", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff00ab", 0, 0, "UPS.OutletSystem.Outlet.0xffff00ab", NULL, "%.0f", 0, NULL },
{ "UPS.OutletSystem.Outlet.0xffff00ac", 0, 0, "UPS.OutletSystem.Outlet.0xffff00ac", NULL, "%.0f", 0, NULL },
{ "UPS.PowerSummary.iOEMInformation", 0, 0, "UPS.PowerSummary.iOEMInformation", NULL, "%s", HU_FLAG_STATIC, stringid_conversion },
#endif /* USBHID_UPS_TRIPPLITE_DEBUG */
/* Battery page */
{ "battery.charge", 0, 0, "UPS.PowerSummary.RemainingCapacity", NULL, "%.0f", 0, NULL },
{ "battery.charge", 0, 0, "UPS.BatterySystem.Battery.RemainingCapacity", NULL, "%.0f", 0, NULL },
{ "battery.charge.low", ST_FLAG_RW | ST_FLAG_STRING, 5, "UPS.PowerSummary.RemainingCapacityLimit", NULL, "%.0f", HU_FLAG_SEMI_STATIC, NULL },
{ "battery.charge.warning", 0, 0, "UPS.PowerSummary.WarningCapacityLimit", NULL, "%.0f", 0, NULL },
{ "battery.runtime", 0, 0, "UPS.PowerSummary.RunTimeToEmpty", NULL, "%.0f", 0, NULL },
{ "battery.voltage.nominal", 0, 0, "UPS.BatterySystem.Battery.ConfigVoltage", NULL, "%.1f", HU_FLAG_STATIC, NULL },
{ "battery.voltage", 0, 0, "UPS.BatterySystem.Battery.Voltage", NULL, "%s", 0, tripplite_battvolt },
{ "battery.type", 0, 0, "UPS.PowerSummary.iDeviceChemistry", NULL, "%s", HU_FLAG_STATIC, tripplite_chemistry },
{ "battery.temperature", 0, 0, "UPS.BatterySystem.Temperature", NULL, "%s", 0, kelvin_celsius_conversion },
/* UPS page */
{ "ups.delay.start", ST_FLAG_RW | ST_FLAG_STRING, 10, "UPS.OutletSystem.Outlet.DelayBeforeStartup", NULL, DEFAULT_ONDELAY, HU_FLAG_ABSENT, NULL},
{ "ups.delay.shutdown", ST_FLAG_RW | ST_FLAG_STRING, 10, "UPS.OutletSystem.Outlet.DelayBeforeShutdown", NULL, DEFAULT_OFFDELAY, HU_FLAG_ABSENT, NULL},
{ "ups.timer.start", 0, 0, "UPS.OutletSystem.Outlet.DelayBeforeStartup", NULL, "%.0f", HU_FLAG_QUICK_POLL, NULL},
{ "ups.timer.shutdown", 0, 0, "UPS.OutletSystem.Outlet.DelayBeforeShutdown", NULL, "%.0f", HU_FLAG_QUICK_POLL, NULL},
{ "ups.timer.reboot", 0, 0, "UPS.OutletSystem.Outlet.DelayBeforeReboot", NULL, "%.0f", HU_FLAG_QUICK_POLL, NULL },
{ "ups.test.result", 0, 0, "UPS.BatterySystem.Test", NULL, "%s", 0, test_read_info },
{ "ups.beeper.status", 0, 0, "UPS.PowerSummary.AudibleAlarmControl", NULL, "%s", 0, beeper_info },
{ "ups.power.nominal", 0, 0, "UPS.Flow.ConfigApparentPower", NULL, "%.0f", HU_FLAG_STATIC, NULL },
{ "ups.power", 0, 0, "UPS.OutletSystem.Outlet.ActivePower", NULL, "%.1f", 0, NULL },
{ "ups.power", 0, 0, "UPS.PowerConverter.Output.ActivePower", NULL, "%.1f", 0, NULL },
{ "ups.load", 0, 0, "UPS.OutletSystem.Outlet.PercentLoad", NULL, "%.0f", 0, NULL },
/* Number of seconds left before the watchdog reboots the UPS (0 = disabled) */
{ "ups.watchdog.status", 0, 0, "UPS.OutletSystem.Outlet.TLWatchdog", NULL, "%.0f", 0, NULL },
/* Special case: ups.status */
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.InternalFailure", NULL, NULL, 0, commfault_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.ShutdownImminent", NULL, NULL, 0, shutdownimm_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.ACPresent", NULL, NULL, HU_FLAG_QUICK_POLL, online_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.BelowRemainingCapacityLimit", NULL, NULL, HU_FLAG_QUICK_POLL, lowbatt_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.FullyCharged", NULL, NULL, HU_FLAG_QUICK_POLL, fullycharged_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.Charging", NULL, NULL, HU_FLAG_QUICK_POLL, charging_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.Discharging", NULL, NULL, HU_FLAG_QUICK_POLL, discharging_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.FullyDischarged", NULL, NULL, HU_FLAG_QUICK_POLL, depleted_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.NeedReplacement", NULL, NULL, 0, replacebatt_info },
/* repeat some of the above for faulty usage codes (seen on OMNI1000LCD, untested) */
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.TLACPresent", NULL, NULL, HU_FLAG_QUICK_POLL, online_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.TLDischarging", NULL, NULL, HU_FLAG_QUICK_POLL, discharging_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.TLCharging", NULL, NULL, HU_FLAG_QUICK_POLL, charging_info },
{ "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.TLNeedReplacement", NULL, NULL, 0, replacebatt_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.VoltageOutOfRange", NULL, NULL, 0, vrange_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.Buck", NULL, NULL, 0, trim_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.Boost", NULL, NULL, 0, boost_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.Overload", NULL, NULL, 0, overload_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.Used", NULL, NULL, 0, nobattery_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.OverTemperature", NULL, NULL, 0, overheat_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.InternalFailure", NULL, NULL, 0, commfault_info },
{ "BOOL", 0, 0, "UPS.PowerConverter.PresentStatus.AwaitingPower", NULL, NULL, 0, awaitingpower_info },
/* Duplicated values
{ "BOOL", 0, 0, "UPS.BatterySystem.Battery.PresentStatus.BelowRemainingCapacityLimit", NULL, NULL, HU_FLAG_QUICK_POLL, lowbatt_info },
{ "BOOL", 0, 0, "UPS.BatterySystem.Battery.PresentStatus.FullyCharged", NULL, NULL, HU_FLAG_QUICK_POLL, fullycharged_info },
{ "BOOL", 0, 0, "UPS.BatterySystem.Battery.PresentStatus.Charging", NULL, NULL, HU_FLAG_QUICK_POLL, charging_info },
{ "BOOL", 0, 0, "UPS.BatterySystem.Battery.PresentStatus.Discharging", NULL, NULL, HU_FLAG_QUICK_POLL, discharging_info },
{ "BOOL", 0, 0, "UPS.BatterySystem.Battery.PresentStatus.FullyDischarged", NULL, NULL, HU_FLAG_QUICK_POLL, depleted_info },
{ "BOOL", 0, 0, "UPS.BatterySystem.Battery.PresentStatus.NeedReplacement", NULL, NULL, 0, replacebatt_info },
*/
/* Input page */
{ "input.voltage.nominal", 0, 0, "UPS.PowerSummary.Input.ConfigVoltage", NULL, "%.0f", HU_FLAG_STATIC, NULL },
{ "input.voltage", 0, 0, "UPS.PowerSummary.Input.Voltage", NULL, "%.1f", 0, NULL },
{ "input.voltage", 0, 0, "UPS.PowerConverter.Input.Voltage", NULL, "%.1f", 0, NULL },
{ "input.frequency", 0, 0, "UPS.PowerConverter.Input.Frequency", NULL, "%.1f", 0, NULL },
{ "input.transfer.low", ST_FLAG_RW | ST_FLAG_STRING, 5, "UPS.PowerConverter.Output.LowVoltageTransfer", NULL, "%.1f", HU_FLAG_SEMI_STATIC, NULL },
{ "input.transfer.low.max", 0, 0, "UPS.PowerConverter.Output.TLLowVoltageTransferMax", NULL, "%.0f", HU_FLAG_STATIC, NULL },
{ "input.transfer.low.min", 0, 0, "UPS.PowerConverter.Output.TLLowVoltageTransferMin", NULL, "%.0f", HU_FLAG_STATIC, NULL },
{ "input.transfer.high", ST_FLAG_RW | ST_FLAG_STRING, 5, "UPS.PowerConverter.Output.HighVoltageTransfer", NULL, "%.1f", HU_FLAG_SEMI_STATIC, NULL },
{ "input.transfer.high.max", 0, 0, "UPS.PowerConverter.Output.TLHighVoltageTransferMax", NULL, "%.0f", HU_FLAG_STATIC, NULL },
{ "input.transfer.high.min", 0, 0, "UPS.PowerConverter.Output.TLHighVoltageTransferMin", NULL, "%.0f", HU_FLAG_STATIC, NULL },
/* Output page */
{ "output.voltage.nominal", 0, 0, "UPS.Flow.ConfigVoltage", NULL, "%.0f", HU_FLAG_STATIC, NULL },
{ "output.voltage", 0, 0, "UPS.PowerConverter.Output.Voltage", NULL, "%.1f", 0, NULL },
{ "output.voltage", 0, 0, "UPS.PowerSummary.Voltage", NULL, "%.1f", 0, NULL },
{ "output.current", 0, 0, "UPS.PowerConverter.Output.Current", NULL, "%.2f", 0, NULL },
{ "output.frequency.nominal", 0, 0, "UPS.Flow.ConfigFrequency", NULL, "%.0f", HU_FLAG_STATIC, NULL },
{ "output.frequency", 0, 0, "UPS.PowerConverter.Output.Frequency", NULL, "%.1f", 0, NULL },
/* instant commands. */
{ "test.battery.start.quick", 0, 0, "UPS.BatterySystem.Test", NULL, "1", HU_TYPE_CMD, NULL }, /* reported to work on OMNI1000 */
{ "test.battery.start.deep", 0, 0, "UPS.BatterySystem.Test", NULL, "2", HU_TYPE_CMD, NULL }, /* reported not to work */
{ "test.battery.stop", 0, 0, "UPS.BatterySystem.Test", NULL, "3", HU_TYPE_CMD, NULL }, /* reported not to work */
{ "load.off.delay", 0, 0, "UPS.OutletSystem.Outlet.DelayBeforeShutdown", NULL, DEFAULT_OFFDELAY, HU_TYPE_CMD, NULL },
{ "load.on.delay", 0, 0, "UPS.OutletSystem.Outlet.DelayBeforeStartup", NULL, DEFAULT_ONDELAY, HU_TYPE_CMD, NULL },
{ "shutdown.stop", 0, 0, "UPS.OutletSystem.Outlet.DelayBeforeShutdown", NULL, "-1", HU_TYPE_CMD, NULL },
{ "shutdown.reboot", 0, 0, "UPS.OutletSystem.Outlet.DelayBeforeReboot", NULL, "10", HU_TYPE_CMD, NULL },
/* NOTE: the ECO550UPS doesn't support DelayBeforeStartup, so we use the watchdog to trigger a reboot */
{ "shutdown.reboot", 0, 0, "UPS.OutletSystem.Outlet.TLWatchdog", NULL, "10", HU_TYPE_CMD, NULL },
/* WARNING: if this timer expires, the UPS will reboot! Defaults to 60 seconds */
{ "reset.watchdog", 0, 0, "UPS.OutletSystem.Outlet.TLWatchdog", NULL, "60", HU_TYPE_CMD, NULL },
{ "beeper.on", 0, 0, "UPS.PowerSummary.AudibleAlarmControl", NULL, "2", HU_TYPE_CMD, NULL },
{ "beeper.off", 0, 0, "UPS.PowerSummary.AudibleAlarmControl", NULL, "3", HU_TYPE_CMD, NULL },
{ "beeper.disable", 0, 0, "UPS.PowerSummary.AudibleAlarmControl", NULL, "1", HU_TYPE_CMD, NULL },
{ "beeper.enable", 0, 0, "UPS.PowerSummary.AudibleAlarmControl", NULL, "2", HU_TYPE_CMD, NULL },
{ "beeper.mute", 0, 0, "UPS.PowerSummary.AudibleAlarmControl", NULL, "3", HU_TYPE_CMD, NULL },
/* end of structure. */
{ NULL, 0, 0, NULL, NULL, NULL, 0, NULL }
};
static char *tripplite_format_model(HIDDevice_t *hd) {
return hd->Product;
}
static char *tripplite_format_mfr(HIDDevice_t *hd) {
return hd->Vendor;
}
static char *tripplite_format_serial(HIDDevice_t *hd) {
return hd->Serial;
}
/* this function allows the subdriver to "claim" a device: return 1 if
* the device is supported by this subdriver, else 0. */
static int tripplite_claim(HIDDevice_t *hd) {
int status = is_usb_device_supported(tripplite_usb_device_table, hd->VendorID,
hd->ProductID);
switch (status)
{
case POSSIBLY_SUPPORTED:
switch (hd->VendorID)
{
/*
* this vendor makes lots of USB devices that are
* not a UPS, so don't use possibly_supported here
*/
case HP_VENDORID:
return 0;
case TRIPPLITE_VENDORID:
/* reject known non-HID devices */
/* not all Tripp Lite products are HID, some are "serial over USB". */
if (hd->ProductID == 0x0001) {
/* e.g. SMART550USB, SMART3000RM2U */
upsdebugx(0, "This Tripp Lite device (%04x/%04x) is not supported by usbhid-ups.\n"
"Please use the tripplite_usb driver instead.\n",
hd->VendorID, hd->ProductID);
return 0;
}
/* by default, reject, unless the productid option is given */
if (getval("productid")) {
return 1;
}
possibly_supported("TrippLite", hd);
return 0;
/* catch all (not really needed) */
default:
return 0;
}
case SUPPORTED:
return 1;
case NOT_SUPPORTED:
default:
return 0;
}
}
subdriver_t tripplite_subdriver = {
TRIPPLITE_HID_VERSION,
tripplite_claim,
tripplite_utab,
tripplite_hid2nut,
tripplite_format_model,
tripplite_format_mfr,
tripplite_format_serial,
};