/* belkin-hid.c - data to monitor Belkin UPS Systems USB/HID devices with NUT * * Copyright (C) * 2003 - 2008 Arnaud Quette * 2005 Peter Selinger * 2011, 2014 Charles Lepple * * Sponsored by MGE UPS SYSTEMS * * 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" /* for getval() */ #include "usbhid-ups.h" #include "belkin-hid.h" #include "usb-common.h" #define BELKIN_HID_VERSION "Belkin/Liebert HID 0.17" /* Belkin */ #define BELKIN_VENDORID 0x050d /* Liebert */ #define LIEBERT_VENDORID 0x10af /*! USB IDs device table. * Note that there are at least two Liebert firmware types which both report * a VID:PID of 10af:0001. The newer ones tend not to have the Belkin broken * Usage Pages (and therefore use standard HID PDC paths) but they have * incorrect exponents for some fields. */ static usb_device_id_t belkin_usb_device_table[] = { /* F6C800-UNV */ { USB_DEVICE(BELKIN_VENDORID, 0x0980), NULL }, /* F6C900-UNV */ { USB_DEVICE(BELKIN_VENDORID, 0x0900), NULL }, /* F6C100-UNV */ { USB_DEVICE(BELKIN_VENDORID, 0x0910), NULL }, /* F6C120-UNV */ { USB_DEVICE(BELKIN_VENDORID, 0x0912), NULL }, /* F6C550-AVR */ { USB_DEVICE(BELKIN_VENDORID, 0x0551), NULL }, /* F6C1250-TW-RK */ { USB_DEVICE(BELKIN_VENDORID, 0x0750), NULL }, /* F6C1500-TW-RK */ { USB_DEVICE(BELKIN_VENDORID, 0x0751), NULL }, /* F6H375-USB */ { USB_DEVICE(BELKIN_VENDORID, 0x0375), NULL }, /* Regulator PRO-USB */ { USB_DEVICE(BELKIN_VENDORID, 0x0f51), NULL }, /* F6C1100-UNV, F6C1200-UNV */ { USB_DEVICE(BELKIN_VENDORID, 0x1100), NULL }, /* Liebert PowerSure PSA UPS */ { USB_DEVICE(LIEBERT_VENDORID, 0x0001), NULL }, /* Liebert PowerSure PSI 1440 */ { USB_DEVICE(LIEBERT_VENDORID, 0x0004), NULL }, /* Liebert GXT3 */ { USB_DEVICE(LIEBERT_VENDORID, 0x0008), NULL }, /* Terminating entry */ { -1, -1, NULL } }; static const char *liebert_online_fun(double value); static const char *liebert_discharging_fun(double value); static const char *liebert_charging_fun(double value); static const char *liebert_lowbatt_fun(double value); static const char *liebert_replacebatt_fun(double value); static const char *liebert_shutdownimm_fun(double value); static const char *liebert_config_voltage_fun(double value); static const char *liebert_line_voltage_fun(double value); static info_lkp_t liebert_online_info[] = { { 0, NULL, liebert_online_fun } }; static info_lkp_t liebert_discharging_info[] = { { 0, NULL, liebert_discharging_fun } }; static info_lkp_t liebert_charging_info[] = { { 0, NULL, liebert_charging_fun } }; static info_lkp_t liebert_lowbatt_info[] = { { 0, NULL, liebert_lowbatt_fun } }; static info_lkp_t liebert_replacebatt_info[] = { { 0, NULL, liebert_replacebatt_fun } }; static info_lkp_t liebert_shutdownimm_info[] = { { 0, NULL, liebert_shutdownimm_fun } }; static info_lkp_t liebert_config_voltage_info[] = { { 0, NULL, liebert_config_voltage_fun }, }; static info_lkp_t liebert_line_voltage_info[] = { { 0, NULL, liebert_line_voltage_fun }, }; static double liebert_config_voltage_mult = 1.0; static double liebert_line_voltage_mult = 1.0; static char liebert_conversion_buf[10]; /* These lookup functions also cover the 1e-7 factor which seems to be due to a * broken report descriptor in certain Liebert units. */ static const char *liebert_online_fun(double value) { return value ? "online" : "!online"; } static const char *liebert_discharging_fun(double value) { return value ? "dischrg" : "!dischrg"; } static const char *liebert_charging_fun(double value) { return value ? "chrg" : "!chrg"; } static const char *liebert_lowbatt_fun(double value) { return value ? "lowbatt" : "!lowbatt"; } static const char *liebert_replacebatt_fun(double value) { return value ? "replacebatt" : "!replacebatt"; } static const char *liebert_shutdownimm_fun(double value) { return value ? "shutdownimm" : "!shutdownimm"; } /*! Apply heuristics to Liebert ConfigVoltage for correction of other values. * Logic is weird since the ConfigVoltage item comes after InputVoltage and * OutputVoltage. */ static const char *liebert_config_voltage_fun(double value) { if( value < 1 ) { if( abs(value - 1e-7) < 1e-9 ) { liebert_config_voltage_mult = 1e8; liebert_line_voltage_mult = 1e7; /* stomp this in case input voltage was low */ upsdebugx(2, "ConfigVoltage = %g -> assuming correction factor = %g", value, liebert_config_voltage_mult); } else { upslogx(LOG_NOTICE, "ConfigVoltage exponent looks wrong, but not correcting."); } } snprintf(liebert_conversion_buf, sizeof(liebert_conversion_buf), "%.1f", value * liebert_config_voltage_mult); return liebert_conversion_buf; } static const char *liebert_line_voltage_fun(double value) { if( value < 1 ) { if( abs(value - 1e-7) < 1e-9 ) { liebert_line_voltage_mult = 1e7; upsdebugx(2, "Input/OutputVoltage = %g -> assuming correction factor = %g", value, liebert_line_voltage_mult); } else { upslogx(LOG_NOTICE, "LineVoltage exponent looks wrong, but not correcting."); } } snprintf(liebert_conversion_buf, sizeof(liebert_conversion_buf), "%.1f", value * liebert_line_voltage_mult); return liebert_conversion_buf; } /* some conversion functions specific to Belkin */ /* returns statically allocated string - must not use it again before done with result! */ static const char *belkin_firmware_conversion_fun(double value) { static char buf[20]; snprintf(buf, sizeof(buf), "%ld", (long)value >> 4); return buf; } static info_lkp_t belkin_firmware_conversion[] = { { 0, NULL, belkin_firmware_conversion_fun } }; static const char *belkin_upstype_conversion_fun(double value) { switch ((long)value & 0x0f) { case 1: return "offline"; case 2: return "line-interactive"; case 3: return "simple online"; case 4: return "simple offline"; case 5: return "simple line-interactive"; default: return "online"; } } static info_lkp_t belkin_upstype_conversion[] = { { 0, NULL, belkin_upstype_conversion_fun } }; static const char *belkin_sensitivity_conversion_fun(double value) { switch ((long)value) { case 1: return "reduced"; case 2: return "low"; default: return "normal"; } } static info_lkp_t belkin_sensitivity_conversion[] = { { 0, NULL, belkin_sensitivity_conversion_fun } }; static info_lkp_t belkin_test_info[] = { { 0, "No test initiated", NULL }, { 1, "Done and passed", NULL }, { 2, "Done and warning", NULL }, { 3, "Done and error", NULL }, { 4, "Aborted", NULL }, { 5, "In progress", NULL }, { 0, NULL, NULL } }; static const char *belkin_overload_conversion_fun(double value) { if ((long)value & 0x0010) { return "overload"; } else { return "!overload"; } } static info_lkp_t belkin_overload_conversion[] = { { 0, NULL, belkin_overload_conversion_fun } }; static const char *belkin_overheat_conversion_fun(double value) { if ((long)value & 0x0040) { return "overheat"; } else { return "!overheat"; } } static info_lkp_t belkin_overheat_conversion[] = { { 0, NULL, belkin_overheat_conversion_fun } }; static const char *belkin_commfault_conversion_fun(double value) { if ((long)value & 0x0080) { return "commfault"; } else { return "!commfault"; } } static info_lkp_t belkin_commfault_conversion[] = { { 0, NULL, belkin_commfault_conversion_fun } }; static const char *belkin_awaitingpower_conversion_fun(double value) { if ((long)value & 0x2000) { return "awaitingpower"; } else { return "!awaitingpower"; } } static info_lkp_t belkin_awaitingpower_conversion[] = { { 0, NULL, belkin_awaitingpower_conversion_fun } }; static const char *belkin_online_conversion_fun(double value) { if ((long)value & 0x0001) { return "!online"; } else { return "online"; } } static info_lkp_t belkin_online_conversion[] = { { 0, NULL, belkin_online_conversion_fun } }; static const char *belkin_lowbatt_conversion_fun(double value) { if ((long)value & 0x0004) { return "lowbatt"; } else { return "!lowbatt"; } } static info_lkp_t belkin_lowbatt_conversion[] = { { 0, NULL, belkin_lowbatt_conversion_fun } }; static const char *belkin_depleted_conversion_fun(double value) { if ((long)value & 0x0040) { return "depleted"; } else { return "!depleted"; } } static info_lkp_t belkin_depleted_conversion[] = { { 0, NULL, belkin_depleted_conversion_fun } }; static const char *belkin_replacebatt_conversion_fun(double value) { if ((long)value & 0x0080) { return "replacebatt"; } else { return "!replacebatt"; } } static info_lkp_t belkin_replacebatt_conversion[] = { { 0, NULL, belkin_replacebatt_conversion_fun } }; /* --------------------------------------------------------------- */ /* Vendor-specific usage table */ /* --------------------------------------------------------------- */ /* BELKIN usage table */ /* Note: these seem to have been wrongly encoded by Belkin */ /* Pages 84 to 88 are reserved for official HID definition! */ static usage_lkp_t belkin_usage_lkp[] = { { "BELKINConfig", 0x00860026 }, { "BELKINConfigVoltage", 0x00860040 }, /* (V) */ { "BELKINConfigFrequency", 0x00860042 }, /* (Hz) */ { "BELKINConfigApparentPower", 0x00860043 }, /* (VA) */ { "BELKINConfigBatteryVoltage", 0x00860044 }, /* (V) */ { "BELKINConfigOverloadTransfer", 0x00860045 }, /* (%) */ { "BELKINLowVoltageTransfer", 0x00860053 }, /* R/W (V) */ { "BELKINHighVoltageTransfer", 0x00860054 }, /* R/W (V)*/ { "BELKINLowVoltageTransferMax", 0x0086005b }, /* (V) */ { "BELKINLowVoltageTransferMin", 0x0086005c }, /* (V) */ { "BELKINHighVoltageTransferMax", 0x0086005d }, /* (V) */ { "BELKINHighVoltageTransferMin", 0x0086005e }, /* (V) */ { "BELKINControls", 0x00860027 }, { "BELKINLoadOn", 0x00860050 }, /* R/W: write: 1=do action. Read: 0=none, 1=started, 2=in progress, 3=complete */ { "BELKINLoadOff", 0x00860051 }, /* R/W: ditto */ { "BELKINLoadToggle", 0x00860052 }, /* R/W: ditto */ { "BELKINDelayBeforeReboot", 0x00860055 }, /* R/W: write: 0=start shutdown using default delay. */ { "BELKINDelayBeforeStartup", 0x00860056 }, /* R/W (minutes) */ { "BELKINDelayBeforeShutdown", 0x00860057 }, /* R/W (seconds) */ { "BELKINTest", 0x00860058 }, /* R/W: write: 0=no test, 1=quick test, 2=deep test, 3=abort test. Read: 0=no test, 1=passed, 2=warning, 3=error, 4=abort, 5=in progress */ { "BELKINAudibleAlarmControl", 0x0086005a }, /* R/W: 1=disabled, 2=enabled, 3=muted */ { "BELKINDevice", 0x00860029 }, { "BELKINVoltageSensitivity", 0x00860074 }, /* R/W: 0=normal, 1=reduced, 2=low */ { "BELKINModelString", 0x00860075 }, { "BELKINModelStringOffset", 0x00860076 }, /* offset of Model name in Model String */ { "BELKINUPSType", 0x0086007c }, /* high nibble: firmware version. Low nibble: 0=online, 1=offline, 2=line-interactive, 3=simple online, 4=simple offline, 5=simple line-interactive */ { "BELKINPowerState", 0x0086002a }, { "BELKINInput", 0x0086001a }, { "BELKINOutput", 0x0086001c }, { "BELKINBatterySystem", 0x00860010 }, { "BELKINVoltage", 0x00860030 }, /* (0.1 Volt) */ { "BELKINFrequency", 0x00860032 }, /* (0.1 Hz) */ { "BELKINPower", 0x00860034 }, /* (Watt) */ { "BELKINPercentLoad", 0x00860035 }, /* (%) */ { "BELKINTemperature", 0x00860036 }, /* (Celsius) */ { "BELKINCharge", 0x00860039 }, /* (%) */ { "BELKINRunTimeToEmpty", 0x0086006c }, /* (minutes) */ { "BELKINStatus", 0x00860028 }, { "BELKINBatteryStatus", 0x00860022 }, /* 1 byte: bit2=low battery, bit4=charging, bit5=discharging, bit6=battery empty, bit7=replace battery */ { "BELKINPowerStatus", 0x00860021 }, /* 2 bytes: bit0=ac failure, bit4=overload, bit5=load is off, bit6=overheat, bit7=UPS fault, bit13=awaiting power, bit15=alarm status */ { NULL, 0 } }; static usage_tables_t belkin_utab[] = { belkin_usage_lkp, hid_usage_lkp, NULL, }; /* --------------------------------------------------------------- */ /* HID2NUT lookup table */ /* --------------------------------------------------------------- */ static hid_info_t belkin_hid2nut[] = { /* interpreted Belkin variables */ { "battery.charge", 0, 0, "UPS.BELKINBatterySystem.BELKINCharge", NULL, "%.0f", 0, NULL }, /* { "battery.charge.broken", 0, 0, "UPS.PowerSummary.RemainingCapacity", NULL, "%.0f", 0, NULL }, */ { "battery.charge.low", 0, 0, "UPS.PowerSummary.RemainingCapacityLimit", NULL, "%.0f", 0, NULL }, { "battery.charge.warning", 0, 0, "UPS.PowerSummary.WarningCapacityLimit", NULL, "%.0f", 0, NULL }, /* Read only */ { "battery.runtime", 0, 0, "UPS.PowerSummary.RunTimeToEmpty", NULL, "%.0f", 0, NULL }, { "battery.type", 0, 0, "UPS.PowerSummary.iDeviceChemistry", NULL, "%s", 0, stringid_conversion }, { "battery.voltage", 0, 0, "UPS.BELKINBatterySystem.BELKINVoltage", NULL, "%s", 0, divide_by_10_conversion }, { "battery.voltage.nominal", 0, 0, "UPS.BELKINConfig.BELKINConfigBatteryVoltage", NULL, "%.0f", 0, NULL }, { "input.frequency", 0, 0, "UPS.BELKINPowerState.BELKINInput.BELKINFrequency", NULL, "%s", 0, divide_by_10_conversion }, { "input.frequency.nominal", 0, 0, "UPS.BELKINConfig.BELKINConfigFrequency", NULL, "%.0f", 0, NULL }, { "input.sensitivity", ST_FLAG_RW | ST_FLAG_STRING, 10, "UPS.BELKINDevice.BELKINVoltageSensitivity", NULL, "%s", 0, belkin_sensitivity_conversion }, { "input.transfer.high", ST_FLAG_RW | ST_FLAG_STRING, 10, "UPS.BELKINConfig.BELKINHighVoltageTransfer", NULL, "%.0f", 0, NULL }, { "input.transfer.high.max", 0, 0, "UPS.BELKINConfig.BELKINHighVoltageTransferMax", NULL, "%.0f", 0, NULL }, { "input.transfer.high.min", 0, 0, "UPS.BELKINConfig.BELKINHighVoltageTransferMin", NULL, "%.0f", 0, NULL }, { "input.transfer.low", ST_FLAG_RW | ST_FLAG_STRING, 10, "UPS.BELKINConfig.BELKINLowVoltageTransfer", NULL, "%.0f", 0, NULL }, { "input.transfer.low.max", 0, 0, "UPS.BELKINConfig.BELKINLowVoltageTransferMax", NULL, "%.0f", 0, NULL }, { "input.transfer.low.min", 0, 0, "UPS.BELKINConfig.BELKINLowVoltageTransferMin", NULL, "%.0f", 0, NULL }, { "input.voltage", 0, 0, "UPS.BELKINPowerState.BELKINInput.BELKINVoltage", NULL, "%s", 0, divide_by_10_conversion }, { "input.voltage.nominal", 0, 0, "UPS.BELKINConfig.BELKINConfigVoltage", NULL, "%.0f", 0, NULL }, { "output.frequency", 0, 0, "UPS.BELKINPowerState.BELKINOutput.BELKINFrequency", NULL, "%s", 0, divide_by_10_conversion }, { "output.voltage", 0, 0, "UPS.BELKINPowerState.BELKINOutput.BELKINVoltage", NULL, "%s", 0, divide_by_10_conversion }, { "ups.beeper.status", 0, 0, "UPS.BELKINControls.BELKINAudibleAlarmControl", NULL, "%s", 0, beeper_info }, { "ups.delay.start", ST_FLAG_RW | ST_FLAG_STRING, 10, "UPS.BELKINControls.BELKINDelayBeforeStartup", NULL, DEFAULT_ONDELAY, HU_FLAG_ABSENT, NULL }, { "ups.delay.shutdown", ST_FLAG_RW | ST_FLAG_STRING, 10, "UPS.BELKINControls.BELKINDelayBeforeShutdown", NULL, DEFAULT_OFFDELAY, HU_FLAG_ABSENT, NULL }, { "ups.timer.start", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeStartup", NULL, "%.0f", HU_FLAG_QUICK_POLL, NULL }, { "ups.timer.shutdown", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeShutdown", NULL, "%.0f", HU_FLAG_QUICK_POLL, NULL }, { "ups.timer.reboot", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeReboot", NULL, "%.0f", HU_FLAG_QUICK_POLL, NULL }, { "ups.firmware", 0, 0, "UPS.BELKINDevice.BELKINUPSType", NULL, "%s", 0, belkin_firmware_conversion }, { "ups.load", 0, 0, "UPS.BELKINPowerState.BELKINOutput.BELKINPercentLoad", NULL, "%.0f", 0, NULL }, { "ups.load.high", 0, 0, "UPS.BELKINConfig.BELKINConfigOverloadTransfer", NULL, "%.0f", 0, NULL }, { "ups.mfr.date", 0, 0, "UPS.PowerSummary.ManufacturerDate", NULL, "%s", 0, date_conversion }, { "ups.power.nominal", 0, 0, "UPS.BELKINConfig.BELKINConfigApparentPower", NULL, "%.0f", 0, NULL }, { "ups.serial", 0, 0, "UPS.PowerSummary.iSerialNumber", NULL, "%s", 0, stringid_conversion }, { "ups.test.result", 0, 0, "UPS.BELKINControls.BELKINTest", NULL, "%s", 0, belkin_test_info }, { "ups.type", 0, 0, "UPS.BELKINDevice.BELKINUPSType", NULL, "%s", 0, belkin_upstype_conversion }, /* Liebert PSA: */ { "battery.charge", 0, 0, "UPS.PowerSummary.RemainingCapacity", NULL, "%.0f", HU_FLAG_QUICK_POLL, NULL }, /* why .broken above? */ { "input.frequency", 0, 0, "UPS.Input.Frequency", NULL, "%s", 0, divide_by_10_conversion }, { "input.voltage", 0, 0, "UPS.Input.Voltage", NULL, "%s", 0, liebert_line_voltage_info }, { "output.voltage", 0, 0, "UPS.Output.Voltage", NULL, "%s", 0, liebert_line_voltage_info }, /* You would think these next two would be off by the same factor. You'd be wrong. */ { "battery.voltage", 0, 0, "UPS.PowerSummary.Voltage", NULL, "%s", 0, liebert_line_voltage_info }, { "battery.voltage.nominal", 0, 0, "UPS.PowerSummary.ConfigVoltage", NULL, "%s", HU_FLAG_STATIC, liebert_config_voltage_info }, { "ups.load", 0, 0, "UPS.Output.PercentLoad", NULL, "%.0f", 0, NULL }, /* status */ { "BOOL", 0, 0, "UPS.PowerSummary.Discharging", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_discharging_info }, /* might not need to be liebert_* version */ { "BOOL", 0, 0, "UPS.PowerSummary.Charging", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_charging_info }, { "BOOL", 0, 0, "UPS.PowerSummary.ShutdownImminent", NULL, NULL, 0, liebert_shutdownimm_info }, { "BOOL", 0, 0, "UPS.PowerSummary.ACPresent", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_online_info }, { "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.Discharging", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_discharging_info }, { "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.Charging", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_charging_info }, { "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.ShutdownImminent", NULL, NULL, 0, liebert_shutdownimm_info }, { "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.ACPresent", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_online_info }, { "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.NeedReplacement", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_replacebatt_info }, { "BOOL", 0, 0, "UPS.PowerSummary.PresentStatus.BelowRemainingCapacityLimit", NULL, NULL, HU_FLAG_QUICK_POLL, liebert_lowbatt_info }, /* { "BOOL", 0, 0, "UPS.PowerSummary.BelowRemainingCapacityLimit", NULL, "%s", 0, lowbatt_info }, broken! */ { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINPowerStatus", NULL, NULL, 0, belkin_overload_conversion }, { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINPowerStatus", NULL, NULL, 0, belkin_overheat_conversion }, { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINPowerStatus", NULL, NULL, 0, belkin_commfault_conversion }, { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINPowerStatus", NULL, NULL, 0, belkin_awaitingpower_conversion }, { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINPowerStatus", NULL, NULL, HU_FLAG_QUICK_POLL, belkin_online_conversion }, { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINBatteryStatus", NULL, NULL, HU_FLAG_QUICK_POLL, belkin_depleted_conversion }, { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINBatteryStatus", NULL, NULL, 0, belkin_replacebatt_conversion }, { "BOOL", 0, 0, "UPS.BELKINStatus.BELKINBatteryStatus", NULL, NULL, HU_FLAG_QUICK_POLL, belkin_lowbatt_conversion }, /* instant commands. */ /* split into subsets while waiting for extradata support * ie: test.battery.start quick */ { "test.battery.start.quick", 0, 0, "UPS.BELKINControls.BELKINTest", NULL, "1", HU_TYPE_CMD, NULL }, { "test.battery.start.deep", 0, 0, "UPS.BELKINControls.BELKINTest", NULL, "2", HU_TYPE_CMD, NULL }, { "test.battery.stop", 0, 0, "UPS.BELKINControls.BELKINTest", NULL, "3", HU_TYPE_CMD, NULL }, { "beeper.on", 0, 0, "UPS.BELKINControls.BELKINAudibleAlarmControl", NULL, "2", HU_TYPE_CMD, NULL }, { "beeper.off", 0, 0, "UPS.BELKINControls.BELKINAudibleAlarmControl", NULL, "3", HU_TYPE_CMD, NULL }, { "beeper.disable", 0, 0, "UPS.BELKINControls.BELKINAudibleAlarmControl", NULL, "1", HU_TYPE_CMD, NULL }, { "beeper.enable", 0, 0, "UPS.BELKINControls.BELKINAudibleAlarmControl", NULL, "2", HU_TYPE_CMD, NULL }, { "beeper.mute", 0, 0, "UPS.BELKINControls.BELKINAudibleAlarmControl", NULL, "3", HU_TYPE_CMD, NULL }, { "load.off", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeShutdown", NULL, "1", HU_TYPE_CMD, NULL }, { "load.on", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeStartup", NULL, "1", HU_TYPE_CMD, NULL }, { "load.off.delay", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeShutdown", NULL, DEFAULT_OFFDELAY, HU_TYPE_CMD, NULL }, { "load.on.delay", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeStartup", NULL, DEFAULT_ONDELAY, HU_TYPE_CMD, NULL }, { "shutdown.stop", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeShutdown", NULL, "-1", HU_TYPE_CMD, NULL }, { "shutdown.reboot", 0, 0, "UPS.BELKINControls.BELKINDelayBeforeReboot", NULL, "10", HU_TYPE_CMD, NULL }, /* Note: on my Belkin UPS, there is no way to implement shutdown.return or load.on, even though they should exist in principle. Hopefully other Belkin models will be better designed. Fixme: fill in the appropriate instant commands. For a more detailed description of the problem and a possible (but not yet implemented) workaround, see the belkinunv(8) man page. -PS 2005/08/28 */ #if 0 /* added for debugging Liebert GXT3 : */ { "unmapped.ups.powersummary.iserialnumber", 0, 0, "UPS.PowerSummary.iSerialNumber", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.imanufacturer", 0, 0, "UPS.PowerSummary.iManufacturer", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.ioeminformation", 0, 0, "UPS.PowerSummary.iOEMInformation", NULL, "%s", 0, stringid_conversion }, { "unmapped.ups.powersummary.designcapacity", 0, 0, "UPS.PowerSummary.DesignCapacity", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.remainingtimelimit", 0, 0, "UPS.PowerSummary.RemainingTimeLimit", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.capacitymode", 0, 0, "UPS.PowerSummary.CapacityMode", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.rechargeable", 0, 0, "UPS.PowerSummary.Rechargeable", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.batterypresent", 0, 0, "UPS.PowerSummary.BatteryPresent", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.fullchargecapacity", 0, 0, "UPS.PowerSummary.FullChargeCapacity", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.capacitygranularity1", 0, 0, "UPS.PowerSummary.CapacityGranularity1", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.capacitygranularity2", 0, 0, "UPS.PowerSummary.CapacityGranularity2", NULL, "%.0f", 0, NULL }, { "unmapped.ups.powersummary.iproduct", 0, 0, "UPS.PowerSummary.iProduct", NULL, "%.0f", 0, NULL }, #endif /* end of structure. */ { NULL, 0, 0, NULL, NULL, NULL, 0, NULL } }; static const char *belkin_format_model(HIDDevice_t *hd) { if ((hd->Product) && (strlen(hd->Product) > 0)) { return hd->Product; } return "unknown"; } static const char *belkin_format_mfr(HIDDevice_t *hd) { const char *mfr; mfr = hd->Vendor ? hd->Vendor : "Belkin"; /* trim leading whitespace */ while (*mfr == ' ') { mfr++; } if (strlen(mfr) == 0) { mfr = "Belkin"; } return mfr; } static const char *belkin_format_serial(HIDDevice_t *hd) { char serial[64]; if (hd->Serial) { return hd->Serial; } /* try UPS.PowerSummary.iSerialNumber */ HIDGetItemString(udev, "UPS.PowerSummary.iSerialNumber", serial, sizeof(serial), belkin_utab); if (strlen(serial) < 1) { return NULL; } /* free(hd->Serial); not needed, we already know it is NULL */ hd->Serial = strdup(serial); 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 belkin_claim(HIDDevice_t *hd) { int status = is_usb_device_supported(belkin_usb_device_table, hd); switch (status) { case POSSIBLY_SUPPORTED: switch (hd->VendorID) { case BELKIN_VENDORID: /* reject any known non-UPS */ if (hd->ProductID == 0x0218) /* F5U218-MOB 4-Port USB Hub */ return 0; /* by default, reject, unless the productid option is given */ if (getval("productid")) { return 1; } possibly_supported("Belkin", hd); return 0; case LIEBERT_VENDORID: /* by default, reject, unless the productid option is given */ if (getval("productid")) { return 1; } possibly_supported("Liebert", hd); return 0; } return 0; case SUPPORTED: return 1; case NOT_SUPPORTED: default: return 0; } } subdriver_t belkin_subdriver = { BELKIN_HID_VERSION, belkin_claim, belkin_utab, belkin_hid2nut, belkin_format_model, belkin_format_mfr, belkin_format_serial, };