nut/drivers/powerp-bin.c

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/*
* powerp-bin.c - Model specific routines for CyberPower binary
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* protocol UPSes
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*
* Copyright (C)
* 2007 Doug Reynolds <mav@wastegate.net>
* 2007-2009 Arjen de Korte <adkorte-guest@alioth.debian.org>
*
* 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
*/
/*
* Throughout this driver, READ and WRITE comments are shown. These are
* the typical commands to and replies from the UPS that was used for
* decoding the protocol (with a serial logger).
*/
#include "main.h"
#include "serial.h"
#include "powerp-bin.h"
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#include "nut_stdint.h"
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#include <math.h>
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#define POWERPANEL_BIN_VERSION "Powerpanel-Binary 0.5"
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typedef struct {
unsigned char start;
unsigned char i_volt;
unsigned char o_volt;
unsigned char o_load;
unsigned char fill_4;
unsigned char b_chrg;
unsigned char u_temp;
unsigned char i_freq;
unsigned char fill_8;
unsigned char flags[4];
unsigned char stop;
} status_t;
typedef struct {
const char *val;
const char command;
} valtab_t;
static enum {
PR = 0,
OP = 1
} type = PR;
static unsigned char powpan_answer[SMALLBUF];
/* PR series */
static const valtab_t tran_high_pr[] = {
{ "138", -9 }, { "139", -8 }, { "140", -7 }, { "141", -6 }, { "142", -5 },
{ "143", -4 }, { "144", -3 }, { "145", -2 }, { "146", -1 }, { "147", 0 },
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{ NULL, 0 }
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};
/* OP series */
static const valtab_t tran_high_op[] = {
{ "140", -5 }, { "141", -4 }, { "142", -3 }, { "143", -2 }, { "144", -1 },
{ "145", 0 }, { "146", +1 }, { "147", +2 }, { "148", +3 }, { "149", +4 },
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{ "150", +5 }, { NULL, 0 }
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};
/* PR series */
static const valtab_t tran_low_pr[] = {
{ "88", 0 }, { "89", +1 }, { "90", +2 }, { "91", +3 }, { "92", +4 },
{ "93", +5 }, { "94", +6 }, { "95", +7 }, { "96", +8 }, { "97", +9 },
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{ NULL, 0 }
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};
/* OP series */
static const valtab_t tran_low_op[] = {
{ "85", -5 }, { "86", -4 }, { "87", -3 }, { "88", -2 }, { "89", -1 },
{ "90", 0 }, { "91", +1 }, { "92", +2 }, { "93", +3 }, { "94", +4 },
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{ "95", +5 }, { NULL, 0 }
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};
/* PR series */
static const valtab_t batt_low_pr[] = {
{ "25", -6 }, { "30", -5 }, { "35", -3 }, { "40", -1 }, { "45", 0 },
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{ "50", +2 }, { "55", +4 }, { "60", +6 }, { NULL, 0 }
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};
/* OP series */
static const valtab_t batt_low_op[] = {
{ "15", -8 }, { "18", -7 }, { "19", -6 }, { "20", -5 }, { "22", -4 },
{ "24", -3 }, { "25", -2 }, { "26", -1 }, { "28", 0 }, { "30", +1 },
{ "32", +2 }, { "34", +3 }, { "35", +4 }, { "36", +5 }, { "38", +6 },
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{ "40", +7 }, { NULL, 0 }
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};
/* PR series */
static const valtab_t out_volt_pr[] = {
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{ "110", -10 }, { "120", 0 }, { "130", +10 }, { NULL, 0 }
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};
/* OP series */
static const valtab_t out_volt_op[] = {
{ "110", -2 }, { "115", -1 }, { "120", 0 }, { "124", +1 }, { "128", +2 },
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{ "130", +3 }, { NULL, 0 }
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};
static const valtab_t yes_no_info[] = {
{ "yes", 2 }, { "no", 0 },
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{ NULL, 0 }
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};
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/* Older models report the model in a numeric format 'rOnn' */
static const struct {
const char *val;
const char *model;
} modeltab[] = {
{ "rO10", "OP1000AVR" },
{ "rO27", "OP320AVR" },
{ "rO29", "OP500AVR" },
{ "rO31", "OP800AVR" },
{ "rO33", "OP850AVR" },
{ "rO37", "OP900AVR" },
{ "rO39", "OP650AVR" },
{ "rO41", "OP700AVR" },
{ "rO43", "OP1250AVR" },
{ "rO45", "OP1500AVR" },
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{ NULL, NULL }
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};
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static const struct {
const char *var;
const char *get;
const char *set;
const valtab_t *map[2];
} vartab[] = {
{ "input.transfer.high", "R\x02\r", "Q\x02%c\r", { tran_high_pr, tran_high_op } },
{ "input.transfer.low", "R\x04\r", "Q\x04%c\r", { tran_low_pr, tran_low_op } },
{ "battery.charge.low", "R\x08\r", "Q\x08%c\r", { batt_low_pr, batt_low_op } },
{ "ups.start.battery", "R\x0F\r", "Q\x0F%c\r", { yes_no_info, yes_no_info } },
{ "output.voltage.nominal", "R\x18\r", "Q\x18%c\r", { out_volt_pr, out_volt_op } },
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{ NULL, NULL, NULL, { NULL, 0 } }
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};
static const struct {
const char *cmd;
const char *command;
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const size_t len;
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} cmdtab[] = {
{ "test.battery.start.quick", "T\230\r", 3 }, /* 20 seconds test */
{ "test.battery.stop", "CT\r", 3 },
{ "beeper.toggle", "B\r", 2 },
{ "shutdown.reboot", "S\0\0R\0\1W\r", 8},
/* the shutdown.stayoff command behaves
* as shutdown.return when on battery */
{ "shutdown.stayoff", "S\0\0W\r", 5 },
{ "shutdown.stop", "C\r", 2 },
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{ NULL, NULL, 0 }
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};
/* map UPS data to (approximated) input/output voltage */
static int op_volt(unsigned char in)
{
if (in < 26) {
return 0;
}
return (((float)in * 200 / 230) + 6);
}
/* map UPS data to (approximated) load */
static int op_load(unsigned char in)
{
if (in > 108) {
return 200;
}
return (in * 200) / 108;
}
/* map UPS data to (approximated) charge percentage */
static int op_chrg(unsigned char in)
{
if (in > 197) {
return 100;
}
if (in < 151) {
return 0;
}
return ((in - 151) * 100) / 46;
}
/* map UPS data to (approximated) temperature */
static float op_temp(unsigned char in)
{
return (pow((float)in / 32, 2) + 10);
}
/* map UPS data to (approximated) frequency */
static float op_freq(unsigned char in)
{
return (12600.0 / (in + 32));
}
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static ssize_t powpan_command(const char *buf, size_t bufsize)
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{
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ssize_t ret;
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ser_flush_io(upsfd);
ret = ser_send_buf_pace(upsfd, UPSDELAY, buf, bufsize);
if (ret < 0) {
upsdebug_with_errno(3, "send");
return -1;
}
if (ret == 0) {
upsdebug_with_errno(3, "send: timeout");
return -1;
}
upsdebug_hex(3, "send", buf, bufsize);
usleep(100000);
ret = ser_get_buf_len(upsfd, powpan_answer, bufsize-1, SER_WAIT_SEC, SER_WAIT_USEC);
if (ret < 0) {
upsdebug_with_errno(3, "read");
upsdebug_hex(4, " \\_", buf, bufsize-1);
return -1;
}
if (ret == 0) {
upsdebugx(3, "read: timeout");
upsdebug_hex(4, " \\_", buf, bufsize-1);
return -1;
}
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upsdebug_hex(3, "read", powpan_answer, (size_t)ret);
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return ret;
}
static int powpan_instcmd(const char *cmdname, const char *extra)
{
int i;
for (i = 0; cmdtab[i].cmd != NULL; i++) {
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ssize_t ret;
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if (strcasecmp(cmdname, cmdtab[i].cmd)) {
continue;
}
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ret = powpan_command(cmdtab[i].command, cmdtab[i].len);
assert(cmdtab[i].len < SSIZE_MAX);
if (ret >= 0 &&
(ret == (ssize_t)(cmdtab[i].len - 1)) &&
(!memcmp(powpan_answer, cmdtab[i].command, cmdtab[i].len - 1))
) {
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return STAT_INSTCMD_HANDLED;
}
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upslogx(LOG_ERR, "%s: command [%s] [%s] failed", __func__, cmdname, extra);
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return STAT_INSTCMD_FAILED;
}
upslogx(LOG_ERR, "%s: command [%s] not found", __func__, cmdname);
return STAT_INSTCMD_UNKNOWN;
}
static int powpan_setvar(const char *varname, const char *val)
{
char command[SMALLBUF];
int i, j;
for (i = 0; vartab[i].var != NULL; i++) {
if (strcasecmp(varname, vartab[i].var)) {
continue;
}
if (!strcasecmp(val, dstate_getinfo(varname))) {
upslogx(LOG_INFO, "powpan_setvar: [%s] no change for variable [%s]", val, varname);
return STAT_SET_HANDLED;
}
for (j = 0; vartab[i].map[type][j].val != NULL; j++) {
if (strcasecmp(val, vartab[i].map[type][j].val)) {
continue;
}
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#ifdef HAVE_PRAGMAS_FOR_GCC_DIAGNOSTIC_IGNORED_FORMAT_NONLITERAL
#pragma GCC diagnostic push
#endif
#ifdef HAVE_PRAGMA_GCC_DIAGNOSTIC_IGNORED_FORMAT_NONLITERAL
#pragma GCC diagnostic ignored "-Wformat-nonliteral"
#endif
#ifdef HAVE_PRAGMA_GCC_DIAGNOSTIC_IGNORED_FORMAT_SECURITY
#pragma GCC diagnostic ignored "-Wformat-security"
#endif
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snprintf(command, sizeof(command), vartab[i].set,
vartab[i].map[type][j].command);
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#ifdef HAVE_PRAGMAS_FOR_GCC_DIAGNOSTIC_IGNORED_FORMAT_NONLITERAL
#pragma GCC diagnostic pop
#endif
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if ((powpan_command(command, 4) == 3) && (!memcmp(powpan_answer, command, 3))) {
dstate_setinfo(varname, "%s", val);
return STAT_SET_HANDLED;
}
upslogx(LOG_ERR, "powpan_setvar: setting variable [%s] to [%s] failed", varname, val);
return STAT_SET_UNKNOWN;
}
upslogx(LOG_ERR, "powpan_setvar: [%s] is not valid for variable [%s]", val, varname);
return STAT_SET_UNKNOWN;
}
upslogx(LOG_ERR, "powpan_setvar: variable [%s] not found", varname);
return STAT_SET_UNKNOWN;
}
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static void powpan_initinfo(void)
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{
int i, j;
char *s;
dstate_setinfo("ups.delay.start", "%d", 45);
dstate_setinfo("ups.delay.shutdown", "%d", 0); /* almost immediate */
/*
* NOTE: The reply is already in the buffer, since the F\r command
* was used for autodetection of the UPS. No need to do it again.
*/
if ((s = strtok((char *)&powpan_answer[1], ".")) != NULL) {
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for (i = 0; modeltab[i].val != NULL; i++) {
if (!strncmp(s, modeltab[i].val, strlen(modeltab[i].val))) {
break;
}
}
if (modeltab[i].model) {
/* model found in table */
dstate_setinfo("ups.model", "%s", modeltab[i].model);
} else {
/* report model value as is */
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dstate_setinfo("ups.model", "%s", str_rtrim(s, ' '));
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}
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}
if ((s = strtok(NULL, ".")) != NULL) {
dstate_setinfo("input.voltage.nominal", "%d", (unsigned char)s[0]);
}
if ((s = strtok(NULL, ".")) != NULL) {
dstate_setinfo("input.frequency.nominal", "%d", (unsigned char)s[0]);
}
if ((s = strtok(NULL, ".")) != NULL) {
dstate_setinfo("ups.firmware", "%c.%c%c%c", s[0], s[1], s[2], s[3]);
}
for (i = 0; cmdtab[i].cmd != NULL; i++) {
dstate_addcmd(cmdtab[i].cmd);
}
for (i = 0; vartab[i].var != NULL; i++) {
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if (powpan_command(vartab[i].get, 3) < 2) {
continue;
}
for (j = 0; vartab[i].map[type][j].val != NULL; j++) {
if (vartab[i].map[type][j].command != powpan_answer[1]) {
continue;
}
dstate_setinfo(vartab[i].var, "%s", vartab[i].map[type][j].val);
break;
}
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if (dstate_getinfo(vartab[i].var) == NULL) {
upslogx(LOG_WARNING, "warning: [%d] unknown value for [%s]!",
powpan_answer[1], vartab[i].var);
continue;
}
dstate_setflags(vartab[i].var, ST_FLAG_RW);
for (j = 0; vartab[i].map[type][j].val != NULL; j++) {
dstate_addenum(vartab[i].var, "%s", vartab[i].map[type][j].val);
}
}
/*
* FIXME: The following commands need to be reverse engineered. It
* looks like they are used in detecting the UPS model. To rule out
* any incompatibilities, only use them when running in debug mode.
*/
if (nut_debug_level > 2) {
powpan_command("R\x29\r", 3);
powpan_command("R\x2B\r", 3);
powpan_command("R\x3D\r", 3);
}
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dstate_addcmd("shutdown.stayoff");
dstate_addcmd("shutdown.reboot");
}
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static ssize_t powpan_status(status_t *status)
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{
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ssize_t ret;
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ser_flush_io(upsfd);
/*
* WRITE D\r
* READ #VVL.CTF.....\r
* 01234567890123
*/
ret = ser_send_pace(upsfd, UPSDELAY, "D\r");
if (ret < 0) {
upsdebug_with_errno(3, "send");
return -1;
}
if (ret == 0) {
upsdebug_with_errno(3, "send: timeout");
return -1;
}
upsdebug_hex(3, "send", "D\r", 2);
usleep(200000);
ret = ser_get_buf_len(upsfd, status, sizeof(*status), SER_WAIT_SEC, SER_WAIT_USEC);
if (ret < 0) {
upsdebug_with_errno(3, "read");
upsdebug_hex(4, " \\_", status, sizeof(*status));
return -1;
}
if (ret == 0) {
upsdebugx(3, "read: timeout");
upsdebug_hex(4, " \\_", status, sizeof(*status));
return -1;
}
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upsdebug_hex(3, "read", status, (size_t)ret);
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if ((status->flags[0] + status->flags[1]) != 255) {
upsdebugx(4, " \\_ : checksum flags[0..1] failed");
return -1;
}
if ((status->flags[2] + status->flags[3]) != 255) {
upsdebugx(4, " \\_ : checksum flags[2..3] failed");
return -1;
}
return 0;
}
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static int powpan_updateinfo(void)
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{
status_t status;
if (powpan_status(&status)) {
return -1;
}
switch (type)
{
case OP:
dstate_setinfo("input.voltage", "%d", op_volt(status.i_volt));
if (status.flags[0] & 0x84) {
dstate_setinfo("output.voltage", "%s", dstate_getinfo("output.voltage.nominal"));
} else {
dstate_setinfo("output.voltage", "%d", op_volt(status.i_volt));
}
dstate_setinfo("ups.load", "%d", op_load(status.o_load));
dstate_setinfo("battery.charge", "%d", op_chrg(status.b_chrg));
dstate_setinfo("ups.temperature", "%.1f", op_temp(status.u_temp));
dstate_setinfo("input.frequency", "%.1f", op_freq(status.i_freq));
break;
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case PR:
#if (defined HAVE_PRAGMA_GCC_DIAGNOSTIC_PUSH_POP) && (defined HAVE_PRAGMA_GCC_DIAGNOSTIC_IGNORED_COVERED_SWITCH_DEFAULT)
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wcovered-switch-default"
#endif
/* All enum cases defined as of the time of coding
* have been covered above. Handle later definitions,
* memory corruptions and buggy inputs below...
*/
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default:
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#if (defined HAVE_PRAGMA_GCC_DIAGNOSTIC_PUSH_POP) && (defined HAVE_PRAGMA_GCC_DIAGNOSTIC_IGNORED_COVERED_SWITCH_DEFAULT)
# pragma GCC diagnostic pop
#endif
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dstate_setinfo("input.voltage", "%d", status.i_volt);
if (status.flags[0] & 0x84) {
dstate_setinfo("output.voltage", "%s", dstate_getinfo("output.voltage.nominal"));
} else {
dstate_setinfo("output.voltage", "%d", status.o_volt);
}
dstate_setinfo("ups.load", "%d", status.o_load);
dstate_setinfo("battery.charge", "%d", status.b_chrg);
dstate_setinfo("ups.temperature", "%d", status.u_temp);
dstate_setinfo("input.frequency", "%.1f", (status.i_freq == 0) ? 0.0 : 45.0 + (float)status.i_freq / 10.0);
break;
}
if (status.flags[0] & 0x01) {
dstate_setinfo("ups.beeper.status", "enabled");
} else {
dstate_setinfo("ups.beeper.status", "disabled");
}
status_init();
if (status.flags[0] & 0x80) {
status_set("OB");
} else {
status_set("OL");
}
if (status.flags[0] & 0x40) {
status_set("LB");
}
/* !OB && !TEST */
if (!(status.flags[0] & 0x84)) {
if (status.o_volt < 0.5 * status.i_volt) {
upsdebugx(2, "%s: output voltage too low", __func__);
} else if (status.o_volt < 0.95 * status.i_volt) {
status_set("TRIM");
} else if (status.o_volt < 1.05 * status.i_volt) {
upsdebugx(2, "%s: appears to be in BYPASS state", __func__);
} else if (status.o_volt < 1.5 * status.i_volt) {
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status_set("BOOST");
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} else {
upsdebugx(2, "%s: output voltage too high", __func__);
}
}
if (status.flags[0] & 0x04) {
status_set("TEST");
}
if (status.flags[0] == 0) {
status_set("OFF");
}
status_commit();
return (status.flags[0] & 0x80) ? 1 : 0;
}
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static ssize_t powpan_initups(void)
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{
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ssize_t ret;
int i;
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upsdebugx(1, "Trying %s protocol...", powpan_binary.version);
ser_set_speed(upsfd, device_path, B1200);
/* This fails for many devices, so don't bother to complain */
ser_send_pace(upsfd, UPSDELAY, "\r\r");
for (i = 0; i < MAXTRIES; i++) {
ser_flush_io(upsfd);
/*
* WRITE F\r
* READ .PR2200 .x.<.1100
* 01234567890123456789
*/
ret = ser_send_pace(upsfd, UPSDELAY, "F\r");
if (ret < 0) {
upsdebug_with_errno(3, "send");
continue;
}
if (ret == 0) {
upsdebug_with_errno(3, "send: timeout");
continue;
}
upsdebug_hex(3, "send", "F\r", 2);
usleep(200000);
ret = ser_get_line(upsfd, powpan_answer, sizeof(powpan_answer),
ENDCHAR, IGNCHAR, SER_WAIT_SEC, SER_WAIT_USEC);
if (ret < 0) {
upsdebug_with_errno(3, "read");
upsdebug_hex(4, " \\_", powpan_answer, strlen((char *)powpan_answer));
continue;
}
if (ret == 0) {
upsdebugx(3, "read: timeout");
upsdebug_hex(4, " \\_", powpan_answer, strlen((char *)powpan_answer));
continue;
}
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upsdebug_hex(3, "read", powpan_answer, (size_t)ret);
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if (ret < 20) {
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upsdebugx(2, "Expected 20 bytes but only got %zd", ret);
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continue;
}
if (powpan_answer[0] != '.') {
upsdebugx(2, "Expected start character '.' but got '%c'", (char)powpan_answer[0]);
continue;
}
/* See if we need to use the 'old' protocol for the OP series */
if (!strncmp((char *)&powpan_answer[1], "OP", 2)) {
type = OP;
}
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/* This is for an older model series, that reports the model numerically */
if (!strncmp((char *)&powpan_answer[1], "rO", 2)) {
type = OP;
}
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if (getval("ondelay")) {
fatalx(EXIT_FAILURE, "Setting 'ondelay' not supported by %s driver", powpan_binary.version);
}
if (getval("offdelay")) {
fatalx(EXIT_FAILURE, "Setting 'offdelay' not supported by %s driver", powpan_binary.version);
}
return ret;
}
return -1;
}
subdriver_t powpan_binary = {
"binary",
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POWERPANEL_BIN_VERSION,
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powpan_instcmd,
powpan_setvar,
powpan_initups,
powpan_initinfo,
powpan_updateinfo
};