/* nutdrv_qx_bestups.c - Subdriver for Best Power/Sola Australia UPSes * * Copyright (C) * 2014 Daniele Pezzini * Based on: * bestups.c - Copyright (C) * 1999 Russell Kroll * Jason White * * 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 "nutdrv_qx.h" #include "nutdrv_qx_blazer-common.h" #include "nutdrv_qx_bestups.h" #define BESTUPS_VERSION "BestUPS 0.06" /* Support functions */ static int bestups_claim(void); static void bestups_initups(void); static void bestups_makevartable(void); /* Answer preprocess functions */ static int bestups_preprocess_id_answer(item_t *item, const int len); /* Preprocess functions */ static int bestups_process_setvar(item_t *item, char *value, const size_t valuelen); static int bestups_process_bbb_status_bit(item_t *item, char *value, const size_t valuelen); static int bestups_manufacturer(item_t *item, char *value, const size_t valuelen); static int bestups_model(item_t *item, char *value, const size_t valuelen); static int bestups_batt_runtime(item_t *item, char *value, const size_t valuelen); static int bestups_batt_packs(item_t *item, char *value, const size_t valuelen); static int bestups_get_pins_shutdown_mode(item_t *item, char *value, const size_t valuelen); static int bestups_voltage_settings(item_t *item, char *value, const size_t valuelen); /* ups.conf settings */ static int pins_shutdown_mode; /* General settings */ static int inverted_bbb_bit = 0; /* == Ranges/enums == */ /* Range for ups.delay.start */ info_rw_t bestups_r_ondelay[] = { { "60", 0 }, { "599940", 0 }, { "", 0 } }; /* Range for ups.delay.shutdown */ static info_rw_t bestups_r_offdelay[] = { { "12", 0 }, { "5940", 0 }, { "", 0 } }; /* Range for number of battery packs */ static info_rw_t bestups_r_batt_packs[] = { { "0", 0 }, { "5", 0 }, { "", 0 } }; /* Range for pin shutdown mode */ static info_rw_t bestups_r_pins_shutdown_mode[] = { { "0", 0 }, { "6", 0 }, { "", 0 } }; /* == qx2nut lookup table == */ static item_t bestups_qx2nut[] = { /* Query UPS for status * > [Q1\r] * < [(226.0 195.0 226.0 014 49.0 27.5 30.0 00001000\r] * 01234567890123456789012345678901234567890123456 * 0 1 2 3 4 */ { "input.voltage", 0, NULL, "Q1\r", "", 47, '(', "", 1, 5, "%.1f", 0, NULL, NULL, NULL }, { "input.voltage.fault", 0, NULL, "Q1\r", "", 47, '(', "", 7, 11, "%.1f", 0, NULL, NULL, NULL }, { "output.voltage", 0, NULL, "Q1\r", "", 47, '(', "", 13, 17, "%.1f", 0, NULL, NULL, NULL }, { "ups.load", 0, NULL, "Q1\r", "", 47, '(', "", 19, 21, "%.0f", 0, NULL, NULL, NULL }, { "input.frequency", 0, NULL, "Q1\r", "", 47, '(', "", 23, 26, "%.1f", 0, NULL, NULL, NULL }, { "battery.voltage", 0, NULL, "Q1\r", "", 47, '(', "", 28, 31, "%.2f", 0, NULL, NULL, NULL }, { "ups.temperature", 0, NULL, "Q1\r", "", 47, '(', "", 33, 36, "%.1f", 0, NULL, NULL, NULL }, /* Status bits */ { "ups.status", 0, NULL, "Q1\r", "", 47, '(', "", 38, 38, NULL, QX_FLAG_QUICK_POLL, NULL, NULL, blazer_process_status_bits }, /* Utility Fail (Immediate) */ { "ups.status", 0, NULL, "Q1\r", "", 47, '(', "", 39, 39, NULL, QX_FLAG_QUICK_POLL, NULL, NULL, blazer_process_status_bits }, /* Battery Low */ { "ups.alarm", 0, NULL, "Q1\r", "", 47, '(', "", 41, 41, NULL, 0, NULL, NULL, blazer_process_status_bits }, /* UPS Failed */ { "ups.type", 0, NULL, "Q1\r", "", 47, '(', "", 42, 42, "%s", QX_FLAG_STATIC, NULL, NULL, blazer_process_status_bits }, /* UPS Type */ { "ups.status", 0, NULL, "Q1\r", "", 47, '(', "", 43, 43, NULL, QX_FLAG_QUICK_POLL, NULL, NULL, blazer_process_status_bits }, /* Test in Progress */ { "ups.status", 0, NULL, "Q1\r", "", 47, '(', "", 44, 44, NULL, QX_FLAG_QUICK_POLL, NULL, NULL, blazer_process_status_bits }, /* Shutdown Active */ /* { "ups.beeper.status", 0, NULL, "Q1\r", "", 47, '(', "", 45, 45, "%s", 0, NULL, NULL, blazer_process_status_bits }, *//* Beeper status: not supported; always 0 */ { "ups.status", 0, NULL, "Q1\r", "", 47, '(', "", 40, 40, NULL, QX_FLAG_QUICK_POLL, NULL, NULL, bestups_process_bbb_status_bit }, /* Bypass/Boost or Buck Active - keep this one at the end as it needs the processed data from the previous items */ /* Query UPS for ratings and model infos * > [ID\r] * < [FOR,750,120,120,20.0,27.6\r] case #1: length = 26 * < [FOR,1500,120,120,20.0,27.6\r] case #2: length = 27 * < [FOR,3000,120,120,20.0,100.6\r] case #3: length = 28 * < [FOR, 750,120,120,20.0, 27.6\r] after being preprocessed: length = 28 * 0123456789012345678901234567 * 0 1 2 */ { "device.mfr", 0, NULL, "ID\r", "", 28, 0, "", 0, 2, "%s", QX_FLAG_STATIC, NULL, bestups_preprocess_id_answer, bestups_manufacturer }, { "device.model", 0, NULL, "ID\r", "", 28, 0, "", 0, 2, "%s", QX_FLAG_STATIC, NULL, bestups_preprocess_id_answer, bestups_model }, { "ups.power.nominal", 0, NULL, "ID\r", "", 28, 0, "", 4, 7, "%.0f", QX_FLAG_STATIC, NULL, bestups_preprocess_id_answer, NULL }, { "input.voltage.nominal", 0, NULL, "ID\r", "", 28, 0, "", 9, 11, "%.0f", QX_FLAG_STATIC, NULL, bestups_preprocess_id_answer, NULL }, { "output.voltage.nominal", 0, NULL, "ID\r", "", 28, 0, "", 13, 15, "%.0f", QX_FLAG_STATIC, NULL, bestups_preprocess_id_answer, NULL }, { "battery.voltage.low", 0, NULL, "ID\r", "", 28, 0, "", 17, 20, "%.1f", QX_FLAG_SEMI_STATIC, NULL, bestups_preprocess_id_answer, NULL }, { "battery.voltage.high", 0, NULL, "ID\r", "", 28, 0, "", 22, 26, "%.1f", QX_FLAG_SEMI_STATIC, NULL, bestups_preprocess_id_answer, NULL }, /* Query UPS for battery runtime (not available on the Patriot Pro/Sola 320 model series) * > [RT\r] * < [025\r] * 0123 * 0 */ { "battery.runtime", 0, NULL, "RT\r", "", 4, 0, "", 0, 2, "%.0f", QX_FLAG_SKIP, NULL, NULL, bestups_batt_runtime }, /* Query UPS for number of battery packs (available only on the Axxium/Sola 620 model series) * > [BP?\r] * < [02\r] * 012 * 0 */ { "battery.packs", ST_FLAG_RW, bestups_r_batt_packs, "BP?\r", "", 3, 0, "", 0, 1, "%d", QX_FLAG_SEMI_STATIC | QX_FLAG_RANGE | QX_FLAG_SKIP, NULL, NULL, bestups_batt_packs }, /* Set number of battery packs to n (integer, 0-5) (available only on the Axxium/Sola 620 model series) * > [BPn\r] * < [] */ { "battery.packs", 0, bestups_r_batt_packs, "BP%.0f\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_SETVAR | QX_FLAG_RANGE | QX_FLAG_SKIP, NULL, NULL, bestups_process_setvar }, /* Query UPS for shutdown mode functionality of Pin 1 and Pin 7 on the UPS DB9 communication port (Per Best Power’s EPS-0059) * > [SS?\r] * < [0\r] * 01 * 0 */ { "pins_shutdown_mode", ST_FLAG_RW, bestups_r_pins_shutdown_mode, "SS?\r", "", 2, 0, "", 0, 0, "%.0f", QX_FLAG_SEMI_STATIC | QX_FLAG_RANGE | QX_FLAG_NONUT, NULL, NULL, bestups_get_pins_shutdown_mode }, /* Set shutdown mode functionality of Pin 1 and Pin 7 on the UPS DB9 communication port (Per Best Power’s EPS-0059) to n (integer, 0-6) * > [SSn\r] * < [] */ { "pins_shutdown_mode", 0, bestups_r_pins_shutdown_mode, "SS%.0f\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_SETVAR | QX_FLAG_RANGE | QX_FLAG_NONUT | QX_FLAG_SKIP, NULL, NULL, bestups_process_setvar }, /* Query UPS for voltage settings * > [M\r] * < [0\r] * 01 * 0 */ { "input.transfer.low", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, { "input.transfer.boost.low", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, { "input.transfer.boost.high", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, { "input.voltage.nominal", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, { "output.voltage.nominal", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, { "input.transfer.trim.low", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, { "input.transfer.trim.high", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, { "input.transfer.high", 0, NULL, "M\r", "", 2, 0, "", 0, 0, "%d", 0, NULL, NULL, bestups_voltage_settings }, /* Instant commands */ { "shutdown.return", 0, NULL, "S%s\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, blazer_process_command }, { "shutdown.stayoff", 0, NULL, "S%s\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, blazer_process_command }, { "shutdown.stop", 0, NULL, "C\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, NULL }, { "load.on", 0, NULL, "C\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, NULL }, { "load.off", 0, NULL, "S00R0000\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, NULL }, { "test.battery.start", 0, NULL, "T%02d\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, blazer_process_command }, { "test.battery.start.deep", 0, NULL, "TL\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, NULL }, { "test.battery.start.quick", 0, NULL, "T\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, NULL }, { "test.battery.stop", 0, NULL, "CT\r", "", 0, 0, "", 0, 0, NULL, QX_FLAG_CMD, NULL, NULL, NULL }, /* Server-side settable vars */ { "ups.delay.start", ST_FLAG_RW, bestups_r_ondelay, NULL, "", 0, 0, "", 0, 0, DEFAULT_ONDELAY, QX_FLAG_ABSENT | QX_FLAG_SETVAR | QX_FLAG_RANGE, NULL, NULL, blazer_process_setvar }, { "ups.delay.shutdown", ST_FLAG_RW, bestups_r_offdelay, NULL, "", 0, 0, "", 0, 0, DEFAULT_OFFDELAY, QX_FLAG_ABSENT | QX_FLAG_SETVAR | QX_FLAG_RANGE, NULL, NULL, blazer_process_setvar }, /* End of structure. */ { NULL, 0, NULL, NULL, "", 0, 0, "", 0, 0, NULL, 0, NULL, NULL, NULL } }; /* == Testing table == */ #ifdef TESTING static testing_t bestups_testing[] = { { "Q1\r", "(215.0 195.0 230.0 014 49.0 22.7 30.0 00100000\r", -1 }, { "ID\r", "FOR,750,120,120,20.0,27.6\r", -1 }, { "RT\r", "015\r", -1 }, { "BP?\r", "02\r", -1 }, { "BP1\r", "", -1 }, { "SS?\r", "0\r", -1 }, { "SS2\r", "", -1 }, { "M\r", "0\r", -1 }, { "S03\r", "", -1 }, { "C\r", "", -1 }, { "S02R0005\r", "", -1 }, { "S.5R0001\r", "", -1 }, { "T04\r", "", -1 }, { "TL\r", "", -1 }, { "T\r", "", -1 }, { "CT\r", "", -1 }, { NULL } }; #endif /* TESTING */ /* == Support functions == */ /* This function allows the subdriver to "claim" a device: return 1 if the device is supported by this subdriver, else 0. */ static int bestups_claim(void) { /* We need at least Q1 and ID to run this subdriver */ item_t *item = find_nut_info("input.voltage", 0, 0); /* Don't know what happened */ if (!item) return 0; /* No reply/Unable to get value */ if (qx_process(item, NULL)) return 0; /* Unable to process value */ if (ups_infoval_set(item) != 1) return 0; /* UPS Model */ item = find_nut_info("device.model", 0, 0); /* Don't know what happened */ if (!item) { dstate_delinfo("input.voltage"); return 0; } /* No reply/Unable to get value */ if (qx_process(item, NULL)) { dstate_delinfo("input.voltage"); return 0; } /* Unable to process value */ if (ups_infoval_set(item) != 1) { dstate_delinfo("input.voltage"); return 0; } return 1; } /* Subdriver-specific initups */ static void bestups_initups(void) { blazer_initups_light(bestups_qx2nut); } /* Subdriver-specific flags/vars */ static void bestups_makevartable(void) { addvar(VAR_VALUE, "pins_shutdown_mode", "Set shutdown mode functionality of Pin 1 and Pin 7 on the UPS DB9 communication port (Per Best Power’s EPS-0059) to n (integer, 0-6)"); blazer_makevartable_light(); } /* == Answer preprocess functions == */ /* Preprocess the answer we got back from the UPS when queried with 'ID\r': make data begin always at the same indexes */ static int bestups_preprocess_id_answer(item_t *item, const int len) { int i; char refined[SMALLBUF] = "", rawval[SMALLBUF] = "", *token, *saveptr = NULL; if (len <= 0) return len; if (len < 25 || len > 27) { upsdebugx(4, "%s: wrong length [%s: %d]", __func__, item->info_type, len); return -1; } /* e.g.: * 1. item->answer = "FOR,750,120,120,20.0,27.6\r"; len = 26 * 2. item->answer = "FOR,1500,120,120,20.0,27.6\r"; len = 27 * 3. item->answer = "FOR,3000,120,120,20.0,100.6\r"; len = 28 */ upsdebugx(4, "read: '%.*s'", (int)strcspn(item->answer, "\r"), item->answer); snprintf(rawval, sizeof(rawval), "%s", item->answer); for (i = 1, token = strtok_r(rawval, ",", &saveptr); token != NULL; i++, token = strtok_r(NULL, ",", &saveptr)) { switch (i) { case 1: snprintf(refined, sizeof(refined), "%s", token); continue; case 2: /* Output power */ snprintfcat(refined, sizeof(refined), ",%4s", token); continue; case 6: /* Battery voltage at full charge (+ trailing CR) */ snprintfcat(refined, sizeof(refined), ",%6s", token); continue; default: snprintfcat(refined, sizeof(refined), ",%s", token); } } if (i != 7 || strlen(refined) != 28) { upsdebugx(2, "noncompliant reply: '%.*s'", (int)strcspn(refined, "\r"), refined); return -1; } upsdebugx(4, "read: '%.*s'", (int)strcspn(refined, "\r"), refined); /* e.g.: item->answer = "FOR, 750,120,120,20.0, 27.6\r"; len = 28 */ return snprintf(item->answer, sizeof(item->answer), "%s", refined); } /* == Preprocess functions == */ /* *SETVAR(/NONUT)* Preprocess setvars */ static int bestups_process_setvar(item_t *item, char *value, const size_t valuelen) { if (!strlen(value)) { upsdebugx(2, "%s: value not given for %s", __func__, item->info_type); return -1; } double val = strtod(value, NULL); if (!strcasecmp(item->info_type, "pins_shutdown_mode")) { if (val == pins_shutdown_mode) { upslogx(LOG_INFO, "%s is already set to %.0f", item->info_type, val); return -1; } } snprintf(value, valuelen, item->command, val); return 0; } /* Bypass/Boost or Buck status */ static int bestups_process_bbb_status_bit(item_t *item, char *value, const size_t valuelen) { /* Bypass/Boost/Buck bit is not reliable when a battery test, shutdown or on battery condition occurs: always ignore it in these cases */ if (!(qx_status() & STATUS(OL)) || (qx_status() & (STATUS(CAL) | STATUS(FSD)))) { if (item->value[0] == '1') item->value[0] = '0'; return blazer_process_status_bits(item, value, valuelen); } /* UPSes with inverted bypass/boost/buck bit */ if (inverted_bbb_bit) { if (item->value[0] == '1') item->value[0] = '0'; else if (item->value[0] == '0') item->value[0] = '1'; } return blazer_process_status_bits(item, value, valuelen); } /* Identify UPS manufacturer */ static int bestups_manufacturer(item_t *item, char *value, const size_t valuelen) { /* Best Power devices */ if ( !strcmp(item->value, "AX1") || !strcmp(item->value, "FOR") || !strcmp(item->value, "FTC") || !strcmp(item->value, "PR2") || !strcmp(item->value, "PRO") ) { snprintf(value, valuelen, item->dfl, "Best Power"); return 0; } /* Sola Australia devices */ if ( !strcmp(item->value, "325") || !strcmp(item->value, "520") || !strcmp(item->value, "620") ) { snprintf(value, valuelen, item->dfl, "Sola Australia"); return 0; } /* Unknown devices */ snprintf(value, valuelen, item->dfl, "Unknown"); return 0; } /* Identify UPS model and unskip qx2nut table's items accordingly */ static int bestups_model(item_t *item, char *value, const size_t valuelen) { item_t *unskip; /* Best Power devices */ if (!strcmp(item->value, "AX1")) { snprintf(value, valuelen, item->dfl, "Axxium Rackmount"); } else if (!strcmp(item->value, "FOR")) { snprintf(value, valuelen, item->dfl, "Fortress"); } else if (!strcmp(item->value, "FTC")) { snprintf(value, valuelen, item->dfl, "Fortress Telecom"); } else if (!strcmp(item->value, "PR2")) { snprintf(value, valuelen, item->dfl, "Patriot Pro II"); inverted_bbb_bit = 1; } else if (!strcmp(item->value, "PRO")) { snprintf(value, valuelen, item->dfl, "Patriot Pro"); inverted_bbb_bit = 1; /* Sola Australia devices */ } else if ( !strcmp(item->value, "320") || !strcmp(item->value, "325") || !strcmp(item->value, "520") || !strcmp(item->value, "525") || !strcmp(item->value, "620") ) { snprintf(value, valuelen, "Sola %s", item->value); /* Unknown devices */ } else { snprintf(value, valuelen, item->dfl, "Unknown (%s)", item->value); upslogx(LOG_INFO, "Unknown model detected - please report this ID: '%s'", item->value); } /* Unskip qx2nut table's items according to the UPS model */ /* battery.runtime var is not available on the Patriot Pro/Sola 320 model series: leave it skipped in these cases, otherwise unskip it */ if (strcmp(item->value, "PRO") && strcmp(item->value, "320")) { unskip = find_nut_info("battery.runtime", 0, 0); /* Don't know what happened */ if (!unskip) return -1; unskip->qxflags &= ~QX_FLAG_SKIP; } /* battery.packs var is available only on the Axxium/Sola 620 model series: unskip it in these cases */ if (!strcmp(item->value, "AX1") || !strcmp(item->value, "620")) { unskip = find_nut_info("battery.packs", 0, QX_FLAG_SETVAR); /* Don't know what happened */ if (!unskip) return -1; unskip->qxflags &= ~QX_FLAG_SKIP; } return 0; } /* Battery runtime */ static int bestups_batt_runtime(item_t *item, char *value, const size_t valuelen) { double runtime; if (strspn(item->value, "0123456789 .") != strlen(item->value)) { upsdebugx(2, "%s: non numerical value [%s: %s]", __func__, item->info_type, item->value); return -1; } /* Battery runtime is reported by the UPS in minutes, NUT expects seconds */ runtime = strtod(item->value, NULL) * 60; snprintf(value, valuelen, item->dfl, runtime); return 0; } /* Battery packs */ static int bestups_batt_packs(item_t *item, char *value, const size_t valuelen) { item_t *unskip; if (strspn(item->value, "0123456789 ") != strlen(item->value)) { upsdebugx(2, "%s: non numerical value [%s: %s]", __func__, item->info_type, item->value); return -1; } snprintf(value, valuelen, item->dfl, strtol(item->value, NULL, 10)); /* Unskip battery.packs setvar */ unskip = find_nut_info("battery.packs", QX_FLAG_SETVAR, 0); /* Don't know what happened */ if (!unskip) return -1; unskip->qxflags &= ~QX_FLAG_SKIP; return 0; } /* *NONUT* Get shutdown mode functionality of Pin 1 and Pin 7 on the UPS DB9 communication port (Per Best Power’s EPS-0059) as set in the UPS */ static int bestups_get_pins_shutdown_mode(item_t *item, char *value, const size_t valuelen) { item_t *unskip; if (strspn(item->value, "0123456789") != strlen(item->value)) { upsdebugx(2, "%s: non numerical value [%s: %s]", __func__, item->info_type, item->value); return -1; } pins_shutdown_mode = strtol(item->value, NULL, 10); snprintf(value, valuelen, item->dfl, pins_shutdown_mode); /* We were not asked by the user to change the value */ if ((item->qxflags & QX_FLAG_NONUT) && !getval(item->info_type)) return 0; /* Unskip setvar */ unskip = find_nut_info(item->info_type, QX_FLAG_SETVAR, 0); /* Don't know what happened */ if (!unskip) return -1; unskip->qxflags &= ~QX_FLAG_SKIP; return 0; } /* Voltage settings */ static int bestups_voltage_settings(item_t *item, char *value, const size_t valuelen) { int index, val; const char *nominal_voltage; const struct { const int low; /* Low voltage -> input.transfer.low / input.transfer.boost.low */ const int boost; /* Boost voltage -> input.transfer.boost.high */ const int nominal; /* Nominal voltage -> input.voltage.nominal / output.voltage.nominal */ const int buck; /* Buck voltage -> input.transfer.trim.low */ const int high; /* High voltage -> input.transfer.high / input.transfer.trim.high */ } voltage_settings[] = { /* U models voltage limits, for: * - Fortress (750U, 1050U, 1425U, 1800U and 2250U) * - Fortress Rackmount (750, 1050, 1425, 1800, and 2250 VA) * - Patriot Pro II (400U, 750U, and 1000U) */ /* M low boost nominal buck high */ /* 0 */ { 96, 109, 120, 130, 146 }, /* LEDs lit: 2,3,4 (Default) */ /* 1 */ { 96, 109, 120, 138, 156 }, /* LEDs lit: 1,3,4 */ /* 2 */ { 90, 104, 120, 130, 146 }, /* LEDs lit: 2,3,5 */ /* 3 */ { 90, 104, 120, 138, 156 }, /* LEDs lit: 1,3,5 */ /* 4 */ { 90, 104, 110, 120, 130 }, /* LEDs lit: 3,4,5 */ /* 5 */ { 90, 104, 110, 130, 146 }, /* LEDs lit: 2,4,5 */ /* 6 */ { 90, 96, 110, 120, 130 }, /* LEDs lit: 3,4,6 */ /* 7 */ { 90, 96, 110, 130, 146 }, /* LEDs lit: 2,4,6 */ /* 8 */ { 96, 109, 128, 146, 156 }, /* LEDs lit: 1,2,4 */ /* 9 */ { 90, 104, 128, 146, 156 }, /* LEDs lit: 1,2,5 */ /* E models voltage limits, for: * - Fortress (750E, 1050E, 1425E, and 2250E) * - Fortress Rackmount (750, 1050, 1425, and 2250 VA) * - Patriot Pro II (400E, 750E, and 1000E) */ /* M low boost nominal buck high */ /* 0 */ { 200, 222, 240, 250, 284 }, /* LEDs lit: 2,3,4 */ /* 1 */ { 200, 222, 240, 264, 290 }, /* LEDs lit: 1,3,4 */ /* 2 */ { 188, 210, 240, 250, 284 }, /* LEDs lit: 2,3,5 */ /* 3 */ { 188, 210, 240, 264, 290 }, /* LEDs lit: 1,3,5 */ /* 4 */ { 188, 210, 230, 244, 270 }, /* LEDs lit: 3,4,5 (Default) */ /* 5 */ { 188, 210, 230, 250, 284 }, /* LEDs lit: 2,4,5 */ /* 6 */ { 180, 200, 230, 244, 270 }, /* LEDs lit: 3,4,6 */ /* 7 */ { 180, 200, 230, 250, 284 }, /* LEDs lit: 2,4,6 */ /* 8 */ { 165, 188, 208, 222, 244 }, /* LEDs lit: 4,5,6 */ /* 9 */ { 165, 188, 208, 244, 270 } /* LEDs lit: 3,5,6 */ }; if (strspn(item->value, "0123456789") != strlen(item->value)) { upsdebugx(2, "%s: non numerical value [%s: %s]", __func__, item->info_type, item->value); return -1; } index = strtol(item->value, NULL, 10); if (index < 0 || index > 9) { upsdebugx(2, "%s: value '%d' out of range [0..9]", __func__, index); return -1; } nominal_voltage = dstate_getinfo("input.voltage.nominal"); if (!nominal_voltage) nominal_voltage = dstate_getinfo("output.voltage.nominal"); if (!nominal_voltage) { upsdebugx(2, "%s: unable to get nominal voltage", __func__); return -1; } /* E models */ if (strtol(nominal_voltage, NULL, 10) > 160) index += 10; if (!strcasecmp(item->info_type, "input.transfer.low") || !strcasecmp(item->info_type, "input.transfer.boost.low")) { val = voltage_settings[index].low; } else if (!strcasecmp(item->info_type, "input.transfer.boost.high")) { val = voltage_settings[index].boost; } else if (!strcasecmp(item->info_type, "input.voltage.nominal") || !strcasecmp(item->info_type, "output.voltage.nominal")) { val = voltage_settings[index].nominal; } else if (!strcasecmp(item->info_type, "input.transfer.trim.low")) { val = voltage_settings[index].buck; } else if (!strcasecmp(item->info_type, "input.transfer.trim.high") || !strcasecmp(item->info_type, "input.transfer.high")) { val = voltage_settings[index].high; } else { /* Don't know what happened */ return -1; } snprintf(value, valuelen, item->dfl, val); return 0; } /* == Subdriver interface == */ subdriver_t bestups_subdriver = { BESTUPS_VERSION, bestups_claim, bestups_qx2nut, bestups_initups, NULL, bestups_makevartable, NULL, NULL, #ifdef TESTING bestups_testing, #endif /* TESTING */ };