nut/drivers/solis.c
2012-01-24 11:22:33 +01:00

1130 lines
25 KiB
C

/* solis.c - driver for Microsol Solis UPS hardware
Copyright (C) 2004 Silvino B. Magalhães <sbm2yk@gmail.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
2004/10/10 - Version 0.10 - Initial release
2004/10/20 - Version 0.20 - add Battery information in driver
2004/10/26 - Version 0.30 - add commands and test shutdown
2004/10/30 - Version 0.40 - add model data structs
2005/06/30 - Version 0.41 - patch for solaris compability
2005/07/01 - Version 0.50 - add internal e external shutdown programming
2005/08/18 - Version 0.60 - save external shutdown programming to ups,
and support new cables for solis 3
Microsol contributed with UPS Solis 1.5 HS 1.5 KVA for my tests.
http://www.microsol.com.br
*/
#include <ctype.h>
#include <stdio.h>
#include "main.h"
#include "serial.h"
#include "solis.h"
#include "timehead.h"
#define DRIVER_NAME "Microsol Solis UPS driver"
#define DRIVER_VERSION "0.61"
/* driver description structure */
upsdrv_info_t upsdrv_info = {
DRIVER_NAME,
DRIVER_VERSION,
"Silvino B. Magalhães <sbm2yk@gmail.com>",
DRV_STABLE,
{ NULL }
};
#define false 0
#define true 1
#define ENDCHAR 13 /* replies end with CR */
/* solis commands */
#define CMD_UPSCONT 0xCC
#define CMD_SHUT 0xDD
#define CMD_SHUTRET 0xDE
#define CMD_EVENT 0xCE
#define CMD_DUMP 0xCD
/* comment on english language */
/* #define PORTUGUESE */
/* The following Portuguese strings are in UTF-8. */
#ifdef PORTUGUESE
#define M_UNKN "Modêlo solis desconhecido\n"
#define NO_SOLIS "Solis não detectado! abortando ...\n"
#define UPS_DATE "Data no UPS %4d/%02d/%02d\n"
#define SYS_DATE "Data do Sistema %4d/%02d/%02d dia da semana %s\n"
#define ERR_PACK "Pacote errado\n"
#define NO_EVENT "Não há eventos\n"
#define UPS_TIME "Hora interna UPS %0d:%02d:%02d\n"
#define PRG_DAYS "Shutdown Programavel Dom Seg Ter Qua Qui Sex Sab\n"
#define PRG_ONON "Programação shutdown ativa externa\n"
#define PRG_ONOU "Programação shutdown ativa interna\n"
#define TIME_OFF "UPS Hora desligar %02d:%02d\n"
#define TIME_ON "UPS Hora ligar %02d:%02d\n"
#define PRG_ONOF "Programação shutdown desativada\n"
#define TODAY_DD "Desligamento hoje as %02d:%02d\n"
#define SHUT_NOW "Shutdown iminente!\n"
#else
#define M_UNKN "Unknown solis model\n"
#define NO_SOLIS "Solis not detected! aborting ...\n"
#define UPS_DATE "UPS Date %4d/%02d/%02d\n"
#define SYS_DATE "System Date %4d/%02d/%02d day of week %s\n"
#define ERR_PACK "Wrong package\n"
#define NO_EVENT "No events\n"
#define UPS_TIME "UPS internal Time %0d:%02d:%02d\n"
#define PRG_DAYS "Programming Shutdown Sun Mon Tue Wed Thu Fri Sat\n"
#define PRG_ONON "External shutdown programming ative\n"
#define PRG_ONOU "Internal shutdown programming ative\n"
#define TIME_OFF "UPS Time power off %02d:%02d\n"
#define TIME_ON "UPS Time power on %02d:%02d\n"
#define PRG_ONOF "Shutdown programming not atived\n"
#define TODAY_DD "Shutdown today at %02d:%02d\n"
#define SHUT_NOW "Shutdown now!\n"
#endif
#define FMT_DAYS " %d %d %d %d %d %d %d\n"
/* convert standard days string to firmware format */
static char* convdays( char *cop )
{
char *stra;
char alt[8];
int i, ish, fim, iw;
iw = weekn;
if ( iw == 6)
ish = 0;
else
ish = 1 + iw;
fim = 7 - ish;
/* rotate left only 7 bits */
for(i=0; i < fim; i++) {
alt[i] = cop[i+ish];
}
if ( ish > 0 ) {
for(i=0; i < ish; i++) {
alt[i+fim] = cop[i];
}
}
alt[7] = 0; /* string terminator */
stra = strdup( alt );
return stra;
}
static int IsBinary(char ch )
{
if( ch == '1' || ch == '0' )
return 1;
else
return 0;
}
/* convert string to binary */
static int Binary( char *nome )
{
char ch, cc;
int cont=0, nint = 1, tobin=0;
int ex, nbin;
while( *nome && ( cont < 7 ) ) {
ch = *nome;
if( !(IsBinary( ch ) ) )
nint = 0;
else
{
if( ch == '1') {
cc = 1;
ex = (6 - cont);
nbin = cc<<ex;
tobin = tobin + nbin;
}
}
nome++;
cont++;
}
if( nint == 0 )
return nint;
else
return tobin;
}
/* revert firmware format to standard string binary days */
static unsigned char revertdays( unsigned char dweek )
{
char alt[8];
unsigned char keewd;
int i, iw;
iw = weekn;
/* it uses only 7 bits */
switch ( iw )
{
case 0: /* sunday */
{
alt[0] = ( ( ( dweek & 0x20 ) == 0x20 ) );
alt[1] = ( ( ( dweek & 0x10 ) == 0x10 ) );
alt[2] = ( ( ( dweek & 0x08 ) == 0x08 ) );
alt[3] = ( ( ( dweek & 0x04 ) == 0x04 ) );
alt[4] = ( ( ( dweek & 0x02 ) == 0x02 ) );
alt[5] = ( ( ( dweek & 0x01 ) == 0x01 ) );
alt[6] = ( ( ( dweek & 0x40 ) == 0x40 ) );
break;
}
case 1:
{
alt[0] = ( ( ( dweek & 0x10 ) == 0x10 ) );
alt[1] = ( ( ( dweek & 0x08 ) == 0x08 ) );
alt[2] = ( ( ( dweek & 0x04 ) == 0x04 ) );
alt[3] = ( ( ( dweek & 0x02 ) == 0x02 ) );
alt[4] = ( ( ( dweek & 0x01 ) == 0x01 ) );
alt[5] = ( ( ( dweek & 0x40 ) == 0x40 ) );
alt[6] = ( ( ( dweek & 0x20 ) == 0x20 ) );
break;
}
case 2:
{
alt[0] = ( ( ( dweek & 0x08 ) == 0x08 ) );
alt[1] = ( ( ( dweek & 0x04 ) == 0x04 ) );
alt[2] = ( ( ( dweek & 0x02 ) == 0x02 ) );
alt[3] = ( ( ( dweek & 0x01 ) == 0x01 ) );
alt[4] = ( ( ( dweek & 0x40 ) == 0x40 ) );
alt[5] = ( ( ( dweek & 0x20 ) == 0x20 ) );
alt[6] = ( ( ( dweek & 0x10 ) == 0x10 ) );
break;
}
case 3:
{
alt[0] = ( ( ( dweek & 0x04 ) == 0x04 ) );
alt[1] = ( ( ( dweek & 0x02 ) == 0x02 ) );
alt[2] = ( ( ( dweek & 0x01 ) == 0x01 ) );
alt[3] = ( ( ( dweek & 0x40 ) == 0x40 ) );
alt[4] = ( ( ( dweek & 0x20 ) == 0x20 ) );
alt[5] = ( ( ( dweek & 0x10 ) == 0x10 ) );
alt[6] = ( ( ( dweek & 0x08 ) == 0x08 ) );
break;
}
case 4:
{
alt[0] = ( ( ( dweek & 0x02 ) == 0x02 ) );
alt[1] = ( ( ( dweek & 0x01 ) == 0x01 ) );
alt[2] = ( ( ( dweek & 0x40 ) == 0x40 ) );
alt[3] = ( ( ( dweek & 0x20 ) == 0x20 ) );
alt[4] = ( ( ( dweek & 0x10 ) == 0x10 ) );
alt[5] = ( ( ( dweek & 0x08 ) == 0x08 ) );
alt[6] = ( ( ( dweek & 0x04 ) == 0x04 ) );
break;
}
case 5:
{
alt[0] = ( ( ( dweek & 0x01 ) == 0x01 ) );
alt[1] = ( ( ( dweek & 0x40 ) == 0x40 ) );
alt[2] = ( ( ( dweek & 0x20 ) == 0x20 ) );
alt[3] = ( ( ( dweek & 0x10 ) == 0x10 ) );
alt[4] = ( ( ( dweek & 0x08 ) == 0x08 ) );
alt[5] = ( ( ( dweek & 0x04 ) == 0x04 ) );
alt[6] = ( ( ( dweek & 0x02 ) == 0x02 ) );
break;
}
case 6: /* saturday */
{
alt[0] = ( ( ( dweek & 0x40 ) == 0x40 ) );
alt[1] = ( ( ( dweek & 0x20 ) == 0x20 ) );
alt[2] = ( ( ( dweek & 0x10 ) == 0x10 ) );
alt[3] = ( ( ( dweek & 0x08 ) == 0x08 ) );
alt[4] = ( ( ( dweek & 0x04 ) == 0x04 ) );
alt[5] = ( ( ( dweek & 0x02 ) == 0x02 ) );
alt[6] = ( ( ( dweek & 0x01 ) == 0x01 ) );
}
}
for(i=0; i < 7; i++) {
if( alt[i] == 0 )
alt[i] = '0';
if( alt[i] == 1 )
alt[i] = '1';
}
alt[7] = 0; /* string terminator */
keewd = Binary ( alt );
return keewd;
}
static int IsHour( char *strx, int qual )
{
int hora=0, min = 0;
if ((strlen(strx) != 5) || (sscanf(strx, "%d:%d", &hora, &min) != 2)) {
return -1;
}
if( qual ) {
dhour = hora;
dmin = min;
}
else
{
lhour = hora;
lmin = min;
}
return 1;
}
static void sendshut( void )
{
int i;
for(i=0; i < 10; i++)
ser_send_char(upsfd, CMD_SHUT );
upslogx(LOG_NOTICE, "Ups shutdown command sent");
printf("Ups shutdown command sent\n");
}
/* save config ups */
static void confups( void )
{
int i, chks = 0;
ConfigPack[0] = 0xCF;
ConfigPack[1] = ihour;
ConfigPack[2] = imin;
ConfigPack[3] = isec;
ConfigPack[4] = lhour;
ConfigPack[5] = lmin;
ConfigPack[6] = dhour;
ConfigPack[7] = dmin;
ConfigPack[8] = weekn << 5;
ConfigPack[8] = ConfigPack[8] | dian;
ConfigPack[9] = mesn << 4;
ConfigPack[9] = ConfigPack[9] | ( anon - BASE_YEAR );
ConfigPack[10] = DaysOffWeek;
/* MSB zero */
ConfigPack[10] = ConfigPack[10] & (~(0x80));
for(i=0; i < 11; i++)
chks = chks + ConfigPack[i];
ConfigPack[11] = chks % 256;
for(i=0; i < 12; i++)
ser_send_char(upsfd, ConfigPack[i] );
}
/* print UPS internal variables */
static void prnInfo( void )
{
int sunday=0, monday=0, tuesday=0, wednesday=0, thursday=0, friday=0, saturday=0;
unsigned char dweek;
printf( UPS_DATE, Year, Month, Day );
printf( SYS_DATE, anon, mesn, dian, seman );
printf( UPS_TIME, ihour, imin, isec);
dweek = DaysStd;
if( prgups > 0 ) {
/* this is the string to binary standard */
sunday = ( ( dweek & 0x40 ) == 0x40 );
monday = ( ( dweek & 0x20 ) == 0x20 );
tuesday = ( ( dweek & 0x10 ) == 0x10 );
wednesday = ( ( dweek & 0x08 ) == 0x08 );
thursday = ( ( dweek & 0x04 ) == 0x04 );
friday = ( ( dweek & 0x02 ) == 0x02 );
saturday = ( ( dweek & 0x01 ) == 0x01 );
if( prgups == 3)
printf( PRG_ONOU );
else
printf( PRG_ONON );
printf( TIME_ON, lhour, lmin);
printf( TIME_OFF, dhour, dmin);
printf( PRG_DAYS );
printf( FMT_DAYS, sunday, monday, tuesday, wednesday, thursday, friday, saturday);
}
else
printf( PRG_ONOF );
}
/* is today shutdown day ? */
static int IsToday( unsigned char dweek, int nweek)
{
switch ( nweek )
{
case 0: /* sunday */
return ( ( ( dweek & 0x40 ) == 0x40 ) );
case 1:
return ( ( ( dweek & 0x20 ) == 0x20 ) );
case 2:
return ( ( ( dweek & 0x10 ) == 0x10 ) );
case 3:
return ( ( ( dweek & 0x08 ) == 0x08 ) );
case 4:
return ( ( ( dweek & 0x04 ) == 0x04 ) );
case 5:
return ( ( ( dweek & 0x02 ) == 0x02 ) );
case 6: /* saturday */
return ( ( ( dweek & 0x01 ) == 0x01 ) );
}
return 0;
}
static void AutonomyCalc( int iauto ) /* all models */
{
int indice, indd, lim, min, max, inf, sup, indc, bx, ipo =0;
bx = bext[iauto];
indice = RecPack[3];
indd = indice - 139;
if( UtilPower > 20 )
ipo = ( UtilPower - 51 ) / 100;
indc = auton[iauto].maxi;
if( ipo > indc )
return;
min = auton[iauto].minc[ipo];
inf = min - 1;
max = auton[iauto].maxc[ipo];
lim = max - 139;
sup = max + 1;
if( UtilPower <= 20 ) {
Autonomy = 170;
maxauto = 170;
}
else
{
maxauto = auton[iauto].mm[ipo][lim];
if( indice > inf && indice < sup ) {
Autonomy = auton[iauto].mm[ipo][indd];
}
else
{
if( indice > max ) Autonomy = maxauto;
if( indice < min ) Autonomy = 0;
}
}
if( BattExtension > 0 && iauto < 4 )
Autonomy = ( Autonomy * ( BattExtension + bx ) * 1.0 / bx );
}
static void ScanReceivePack( void )
{
int aux, im, ov = 0;
/* model independent data */
Year = ( RecPack[ 19 ] & 0x0F ) + BASE_YEAR;
Month = ( RecPack[ 19 ] & 0xF0 ) >> 4;
Day = ( RecPack[ 18 ] & 0x1F );
DaysOnWeek = RecPack[17];
/* Days of week if in UPS shutdown programming mode */
if( prgups == 3 ) {
DaysStd = revertdays( DaysOnWeek );
/* time for programming UPS off */
dhour = RecPack[15];
dmin = RecPack[16];
/* time for programming UPS on */
lhour = RecPack[13];
lmin = RecPack[14];
}
/* UPS internal time */
ihour = RecPack[11];
imin = RecPack[10];
isec = RecPack[9];
if( ( ( 0x01 & RecPack[ 20 ] ) == 0x01 ) )
Out220 = 1;
CriticBatt = ( ( 0x04 & RecPack[ 20 ] ) == 0x04 );
InversorOn = ( ( 0x08 & RecPack[ 20 ] ) == 0x08 );
SuperHeat = ( ( 0x10 & RecPack[ 20 ] ) == 0x10 );
SourceFail = ( ( 0x20 & RecPack[ 20 ] ) == 0x20 );
OverCharge = ( ( 0x80 & RecPack[ 20 ] ) == 0x80 );
if( ( ( 0x40 & RecPack[ 20 ] ) == 0x40 ) )
InputValue = 1;
else
InputValue = 0;
Temperature = ( 0x7F & RecPack[ 4 ]);
if( ( ( 0x80 & RecPack[ 4 ] ) == 0x80 ) )
Temperature = Temperature - 128;
/* model dependent data */
im = inds[imodel];
ov = Out220;
if( RecPack[ 6 ] >= 194 )
InVoltage = RecPack[ 6 ] * ctab[imodel].m_involt194[0] + ctab[imodel].m_involt194[1];
else
InVoltage = RecPack[ 6 ] * ctab[imodel].m_involt193[0] + ctab[imodel].m_involt193[1];
BattVoltage = RecPack[ 3 ] * ctab[imodel].m_battvolt[0] + ctab[imodel].m_battvolt[1];
NominalPower = nompow[im];
if( SourceFail ) {
OutVoltage = RecPack[ 1 ] * ctab[imodel].m_outvolt_i[ov][0] + ctab[imodel].m_outvolt_i[ov][1];
OutCurrent = RecPack[ 5 ] * ctab[imodel].m_outcurr_i[ov][0] + ctab[imodel].m_outcurr_i[ov][1];
AppPower = ( RecPack[ 5 ] * RecPack[ 1 ] ) * ctab[imodel].m_appp_i[ov][0] + ctab[imodel].m_appp_i[ov][1];
UtilPower = ( RecPack[ 7 ] + RecPack[ 8 ] * 256 ) * ctab[imodel].m_utilp_i[ov][0] + ctab[imodel].m_utilp_i[ov][1];
InCurrent = 0;
}
else
{
OutVoltage = RecPack[ 1 ] * ctab[imodel].m_outvolt_s[ov][0] + ctab[imodel].m_outvolt_s[ov][1];
OutCurrent = RecPack[ 5 ] * ctab[imodel].m_outcurr_s[ov][0] + ctab[imodel].m_outcurr_s[ov][1];
AppPower = ( RecPack[ 5 ] * RecPack[ 1 ] ) * ctab[imodel].m_appp_s[ov][0] + ctab[imodel].m_appp_s[ov][1];
UtilPower = ( RecPack[ 7 ] + RecPack[ 8 ] * 256 ) * ctab[imodel].m_utilp_s[ov][0] + ctab[imodel].m_utilp_s[ov][1];
InCurrent = ( ctab[imodel].m_incurr[0] * 1.0 / BattVoltage ) - ( AppPower * 1.0 / ctab[imodel].m_incurr[1] )
+ OutCurrent *( OutVoltage * 1.0 / InVoltage );
}
aux = ( RecPack[ 21 ] + RecPack[ 22 ] * 256 );
if( aux > 0 )
InFreq = ctab[imodel].m_infreq * 1.0 / aux;
else
InFreq = 0;
/* input voltage offset */
if( InVoltage < InVolt_offset ) { /* all is equal 30 */
InFreq = 0;
InVoltage = 0;
InCurrent = 0;
}
/* app power offset */
if( AppPower < ctab[imodel].m_appp_offset ) {
AppPower = 0;
UtilPower = 0;
ChargePowerFactor = 0;
OutCurrent = 0;
}
if( im < 3 )
AutonomyCalc( im );
else
{
if( BattExtension == 80 )
AutonomyCalc( im + 1 );
else
AutonomyCalc( im );
}
/* model independent data */
batcharge = ( Autonomy / maxauto ) * 100.0;
upscharge = ( AppPower / NominalPower ) * 100.0;
if (batcharge > 100.0)
batcharge = 100.0;
OutFreq = 60;
if( !( InversorOn ) ) {
OutVoltage = 0;
OutFreq = 0;
}
if( ( !( SourceFail ) && InversorOn ) )
OutFreq = InFreq;
if( AppPower <= 0 ) /* charge pf */
ChargePowerFactor = 0;
else
{
if( AppPower == 0 )
ChargePowerFactor = 100;
else
ChargePowerFactor = (( UtilPower / AppPower) * 100 );
if( ChargePowerFactor > 100 )
ChargePowerFactor = 100;
}
if( SourceFail && SourceLast ) /* first time failure */
FailureFlag = true;
/* source return */
if( !( SourceFail ) && !( SourceLast ) ) {
SourceReturn = true;
ser_flush_in(upsfd,"",0); /* clean port */
}
if( !( SourceFail ) == SourceLast ) {
SourceReturn = false;
FailureFlag = false;
}
SourceLast = !( SourceFail );
/* Autonomy */
if( ( Autonomy < 5 ) )
LowBatt = true;
else
LowBatt = false;
UpsPowerFactor = 700;
/* input 110V or 220v */
if( ( InputValue == 0 ) ) {
InDownLim = 75;
InUpLim = 150;
NomInVolt = 110;
}
else
{
InDownLim = 150;
InUpLim = 300;
NomInVolt = 220;
}
/* output volage 220V or 110V */
if( Out220 ) {
OutDownLim = 190;
OutUpLim = 250;
NomOutVolt = 220;
}
else
{
OutDownLim = 100;
OutUpLim = 140;
NomOutVolt = 110;
}
if( SourceFail ) /* source status */
InputStatus = 2;
else
InputStatus = 1;
if( InversorOn ) /* output status */
OutputStatus = 1;
else
OutputStatus = 2;
if( OverCharge )
OutputStatus = 3;
if( CriticBatt ) /* battery status */
BattStatus = 4;
else
BattStatus = 1;
SourceEvents = 0;
if( FailureFlag )
SourceEvents = 1;
if( SourceReturn )
SourceEvents = 2;
/* verify Inversor */
if( Flag_inversor ) {
InversorOnLast = InversorOn;
Flag_inversor = false;
}
OutputEvents = 0;
if( InversorOn && !( InversorOnLast ) )
OutputEvents = 26;
if( InversorOnLast && !( InversorOn ) )
OutputEvents = 27;
InversorOnLast = InversorOn;
if( SuperHeat && !( SuperHeatLast ) )
OutputEvents = 12;
if( SuperHeatLast && !( SuperHeat ) )
OutputEvents = 13;
SuperHeatLast = SuperHeat;
if( OverCharge && !( OverChargeLast ) )
OutputEvents = 10;
if( OverChargeLast && !( OverCharge ) )
OutputEvents = 11;
OverChargeLast = OverCharge;
BattEvents = 0;
CriticBattLast = CriticBatt;
}
static void
CommReceive(const char *bufptr, int size)
{
int i, CheckSum, i_end;
if( ( size==25 ) )
Waiting = 0;
switch( Waiting )
{
/* normal package */
case 0:
{
if( size == 25 ) {
i_end = 25;
for( i = 0 ; i < i_end ; ++i ) {
RecPack[i] = *bufptr;
bufptr++;
}
/* CheckSum verify */
CheckSum = 0;
i_end = 23;
for( i = 0 ; i < i_end ; ++i )
CheckSum = RecPack[ i ] + CheckSum;
CheckSum = CheckSum % 256;
ser_flush_in(upsfd,"",0); /* clean port */
/* correct package */
if( ( (RecPack[0] & 0xF0) == 0xA0 )
&& ( RecPack[ 24 ] == 254 )
&& ( RecPack[ 23 ] == CheckSum ) ) {
if(!(detected)) {
SolisModel = (int) (RecPack[0] & 0x0F);
if( SolisModel < 13 )
imodel = SolisModel - 10; /* 10 = 0, 11 = 1 */
else
imodel = SolisModel - 11; /* 13 = 2, 14 = 3, 15 = 4 */
detected = true;
}
switch( SolisModel )
{
case 10:
case 11:
case 12:
case 13:
case 14:
case 15:
{
ScanReceivePack();
break;
}
default:
{
printf( M_UNKN );
break;
}
}
}
}
break;
}
case 1:
{
/* dumping package nothing to do yet */
Waiting = 0;
break;
}
}
Waiting =0;
}
static void getbaseinfo(void)
{
unsigned char temp[256];
#ifdef PORTUGUESE
char diassemana[7][4]={"Dom", "Seg", "Ter", "Qua", "Qui", "Sex", "Sab"};
#else
char DaysOfWeek[7][4]={"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"};
#endif
char mycmd[8];
char *str1, *str2, *str3, *str4, *strx;
unsigned char Pacote[25];
int i, i1=0, i2=0, j=0, tam, tpac=25;
time_t *tmt;
struct tm *now;
tmt = ( time_t * ) malloc( sizeof( time_t ) );
time( tmt );
now = localtime( tmt );
dian = now->tm_mday;
mesn = now->tm_mon+1;
anon = now->tm_year+1900;
ihour = now->tm_hour;
imin = now->tm_min;
isec = now->tm_sec;
weekn = now->tm_wday;
#ifdef PORTUGUESE
strcpy( seman, diassemana[weekn] );
#else
strcpy( seman, DaysOfWeek[weekn] );
#endif
if( testvar("battext"))
BattExtension = atoi(getval("battext"));
if( testvar("prgshut"))
prgups = atoi(getval("prgshut"));
if( prgups > 0 && prgups < 3 ) {
if( testvar("daysweek") ) {
strx = getval("daysweek");
str1 = convdays( strx );
DaysOnWeek = Binary( str1 );
}
if( testvar("daysoff") ) {
strx = getval("daysoff");
str2 = convdays( strx );
DaysStd = Binary ( strx );
DaysOffWeek = Binary( str2 );
}
if( testvar("houron") ) {
str3 = getval("houron");
i1 = IsHour( str3, 0 );
}
if( testvar("houroff") ) {
str4 = getval("houroff");
i2 = IsHour( str4, 1 );
}
if( i1 == 1 && i2 == 1 && ( DaysOnWeek > 0 ) ) {
isprogram = 1; /* prgups == 1 ou 2 */
if( prgups == 2 )
confups(); /* save ups config */
}
else
{
if( (i2 == 1) && ( DaysOffWeek > 0 ) ) {
isprogram = 1;
if( DaysOnWeek != DaysOffWeek )
DaysOnWeek = DaysOffWeek;
}
}
} /* end prgups 1 - 2 */
/* dummy read attempt to sync - throw it out */
snprintf(mycmd, sizeof(mycmd), "%c%c",CMD_UPSCONT, ENDCHAR);
ser_send(upsfd, "%s", mycmd);
/* trying detect solis model */
while ( ( !detected ) && ( j < 20 ) ) {
temp[0] = 0; /* flush temp buffer */
tam = ser_get_buf_len(upsfd, temp, tpac, 3, 0);
if( tam == 25 ) {
for( i = 0 ; i < tam ; i++ ) {
Pacote[i] = temp[i];
}
}
j++;
if( tam == 25)
CommReceive((char *)Pacote, tam);
else
CommReceive((char *)temp, tam);
} /* while end */
if( (!detected) ) {
fatalx(EXIT_FAILURE, NO_SOLIS );
}
switch( SolisModel )
{
case 10:
case 11:
case 12:
{
strcpy(Model, "Solis 1.0");
break;
}
case 13:
{
strcpy(Model, "Solis 1.5");
break;
}
case 14:
{
strcpy(Model, "Solis 2.0");
break;
}
case 15:
{
strcpy(Model, "Solis 3.0");
break;
}
}
/* if( isprogram ) */
if( prgups == 1 ) {
hourshut = dhour;
minshut = dmin;
}
else
{
if( prgups == 2 || prgups == 3 ) { /* broadcast before firmware shutdown */
if( dmin < 5 ) {
if( dhour > 1 )
hourshut = dhour - 1;
else
hourshut = 23;
minshut = 60 - ( 5 - dmin );
}
else
{
hourshut = dhour;
minshut = dmin - 5;
}
}
}
/* manufacturer */
dstate_setinfo("ups.mfr", "%s", "Microsol");
dstate_setinfo("ups.model", "%s", Model);
dstate_setinfo("input.transfer.low", "%03.1f", InDownLim);
dstate_setinfo("input.transfer.high", "%03.1f", InUpLim);
dstate_addcmd("shutdown.return"); /* CMD_SHUTRET */
dstate_addcmd("shutdown.stayoff"); /* CMD_SHUT */
printf("Detected %s on %s\n", dstate_getinfo("ups.model"), device_path);
prnInfo();
}
static void getupdateinfo(void)
{
unsigned char temp[256];
int tam, isday, hourn, minn;
/* time update and programable shutdown block */
time_t *tmt;
struct tm *now;
tmt = ( time_t * ) malloc( sizeof( time_t ) );
time( tmt );
now = localtime( tmt );
hourn = now->tm_hour;
minn = now->tm_min;
weekn = now->tm_wday;
if( isprogram || prgups == 3 ) {
if( isprogram )
isday = IsToday( DaysStd, weekn );
else
isday = IsToday( DaysStd, weekn );
if( isday )
printf( TODAY_DD, hourshut, minshut );
if( ( hourn == hourshut ) && ( minn >= minshut ) && isday ) {
printf( SHUT_NOW );
progshut = 1;
}
}
/* programable shutdown end block */
pacsize = 25;
/* get update package */
temp[0] = 0; /* flush temp buffer */
tam = ser_get_buf_len(upsfd, temp, pacsize, 3, 0);
CommReceive((char *)temp, tam);
}
static int instcmd(const char *cmdname, const char *extra)
{
if (!strcasecmp(cmdname, "shutdown.return")) {
/* shutdown and restart */
ser_send_char(upsfd, CMD_SHUTRET); /* 0xDE */
/* ser_send_char(upsfd, ENDCHAR); */
return STAT_INSTCMD_HANDLED;
}
if (!strcasecmp(cmdname, "shutdown.stayoff"))
{
/* shutdown now (one way) */
ser_send_char(upsfd, CMD_SHUT); /* 0xDD */
/* ser_send_char(upsfd, ENDCHAR); */
return STAT_INSTCMD_HANDLED;
}
upslogx(LOG_NOTICE, "instcmd: unknown command [%s]", cmdname);
return STAT_INSTCMD_UNKNOWN;
}
void upsdrv_initinfo(void)
{
getbaseinfo();
upsh.instcmd = instcmd;
}
void upsdrv_updateinfo(void)
{
getupdateinfo(); /* new package for updates */
dstate_setinfo("output.voltage", "%03.1f", OutVoltage);
dstate_setinfo("input.voltage", "%03.1f", InVoltage);
dstate_setinfo("battery.voltage", "%02.1f", BattVoltage);
dstate_setinfo("battery.charge", "%03.1f", batcharge);
status_init();
if (!SourceFail )
status_set("OL"); /* on line */
else
status_set("OB"); /* on battery */
if (Autonomy < 5 )
status_set("LB"); /* low battery */
if( progshut ) { /* software programable shutdown immediately */
if( prgups == 2 )
sendshut(); /* Ups shutdown in 4-5 minutes -- redundant Ups shutdown */
status_set("LB"); /* no low battery but is a force shutdown */
}
status_commit();
dstate_setinfo("ups.temperature", "%2.2f", Temperature);
dstate_setinfo("input.frequency", "%2.1f", InFreq);
dstate_setinfo("ups.load", "%03.1f", upscharge);
dstate_dataok();
}
/* power down the attached load immediately */
void upsdrv_shutdown(void)
{
/* basic idea: find out line status and send appropriate command */
/* on battery: send normal shutdown, ups will return by itself on utility */
/* on line: send shutdown+return, ups will cycle and return soon */
if (!SourceFail) { /* on line */
printf("On line, sending shutdown+return command...\n");
ser_send_char(upsfd, CMD_SHUTRET );
}
else
{
printf("On battery, sending normal shutdown command...\n");
ser_send_char(upsfd, CMD_SHUT);
}
}
void upsdrv_help(void)
{
printf("\nSolis options\n");
printf(" Battery Extension in AH\n");
printf(" battext = 80\n");
printf(" Programable UPS power on/off\n");
printf(" prgshut = 0 (default, no software programable shutdown)\n");
printf(" prgshut = 1 (software programable shutdown without UPS power off)\n");
printf(" prgshut = 2 (software programable shutdown with UPS power off)\n");
printf(" prgshut = 3 (activate UPS programable power on/off)\n");
printf(" Otherwise uses:\n");
printf(" daysweek = 1010101 ( power on days )\n");
printf(" daysoff = 1010101 ( power off days )\n");
printf(" where each digit is a day from sun...sat with 0 = off and 1 = on\n");
printf(" houron = hh:mm hh = hour 0-23 mm = minute 0-59 separated with :\n");
printf(" houroff = hh:mm hh = hour 0-23 mm = minute 0-59 separated with :\n");
printf(" where houron is power-on hour and houroff is shutdown and power-off hour\n");
printf(" Uses daysweek and houron to programing and save UPS power on/off\n");
printf(" These are valid only if prgshut = 2 or 3\n");
}
void upsdrv_makevartable(void)
{
addvar(VAR_VALUE, "battext", "Battery Extension (0-80)min");
addvar(VAR_VALUE, "prgshut", "Programable power off (0-3)");
addvar(VAR_VALUE, "daysweek", "Days of week UPS power of/off");
addvar(VAR_VALUE, "daysoff", "Days of week Driver shutdown");
addvar(VAR_VALUE, "houron", "Power on hour (hh:mm)");
addvar(VAR_VALUE, "houroff", "Power off hour (hh:mm)");
}
void upsdrv_initups(void)
{
upsfd = ser_open(device_path);
ser_set_speed(upsfd, device_path, B9600);
ser_set_dtr(upsfd, 1);
ser_set_rts(upsfd, 0);
}
void upsdrv_cleanup(void)
{
ser_close(upsfd, device_path);
}