/* * apcsmart.c - driver for APC smart protocol units (originally "newapc") * * Copyright (C) 1999 Russell Kroll * (C) 2000 Nigel Metheringham * (C) 2011+ Michal Soltys * * 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 #include #include #include #include /* strcasecmp() */ #include "main.h" #include "serial.h" #include "timehead.h" #include "apcsmart.h" #include "apcsmart_tabs.h" /* driver description structure */ upsdrv_info_t upsdrv_info = { DRIVER_NAME, DRIVER_VERSION, "Russell Kroll \n" "Nigel Metheringham \n" "Michal Soltys ", DRV_STABLE, { &apc_tab_info, NULL } }; static int ups_status = 0; /* some forwards */ static int sdcmd_S(const void *); static int sdcmd_AT(const void *); static int sdcmd_K(const void *); static int sdcmd_Z(const void *); static int sdcmd_CS(const void *); /* * following table *must* match order defined in the man page, namely: * 0:: soft hibernate (*S*) * 1:: hard hibernate (*@*) * 2:: delayed poweroff (*K*) * 3:: instant poweroff (*Z*) * 4:: "force OB hack" (*CS*) */ static int (*sdlist[])(const void *) = { sdcmd_S, sdcmd_AT, sdcmd_K, sdcmd_Z, sdcmd_CS, }; #define SDIDX_AT 1 /* * note: both lookup functions MUST be used after variable detection is * completed - that is after deprecate_vars() call; the general reason for this * is 1:n and n:1 nut <-> apc mappings, which are not determined prior to the * detection */ static apc_vartab_t *vt_lookup_char(char cmdchar) { int i; for (i = 0; apc_vartab[i].name != NULL; i++) if ((apc_vartab[i].flags & APC_PRESENT) && apc_vartab[i].cmd == cmdchar) return &apc_vartab[i]; return NULL; } static apc_vartab_t *vt_lookup_name(const char *var) { int i; for (i = 0; apc_vartab[i].name != NULL; i++) if ((apc_vartab[i].flags & APC_PRESENT) && !strcasecmp(apc_vartab[i].name, var)) return &apc_vartab[i]; return NULL; } static const char *prtchr(char x) { static size_t curr = 24; static char info[32]; curr = (curr + 8) & 0x1F; snprintf(info + curr, 8, isprint(x) ? "%c" : "0x%02x", x); return info + curr; } static int rexhlp(const char *rex, const char *val) { static const char *empty = ""; int ret; regex_t mbuf; if (!rex || !*rex) return 1; if (!val) val = empty; regcomp(&mbuf, rex, REG_EXTENDED|REG_NOSUB); ret = regexec(&mbuf, val, 0, 0, 0); regfree(&mbuf); return !ret; } /* convert APC formatting to NUT formatting */ /* TODO: handle errors better */ static const char *convert_data(apc_vartab_t *vt, const char *upsval) { static char temp[APC_LBUF]; int tval; /* this should never happen */ if (strlen(upsval) >= sizeof(temp)) { logx(LOG_CRIT, "the length of [%s] is too big", vt->name); memcpy(temp, upsval, sizeof(temp) - 1); temp[sizeof(temp) - 1] = '\0'; return temp; } switch (vt->flags & APC_F_MASK) { case APC_F_PERCENT: case APC_F_VOLT: case APC_F_AMP: case APC_F_CELSIUS: case APC_F_HEX: case APC_F_DEC: case APC_F_SECONDS: case APC_F_LEAVE: /* no conversion for any of these */ strcpy(temp, upsval); return temp; case APC_F_HOURS: /* convert to seconds */ tval = 60 * 60 * strtol(upsval, NULL, 10); snprintf(temp, sizeof(temp), "%d", tval); return temp; case APC_F_MINUTES: /* Convert to seconds - NUT standard time measurement */ tval = 60 * strtol(upsval, NULL, 10); /* Ignore errors - there's not much we can do */ snprintf(temp, sizeof(temp), "%d", tval); return temp; case APC_F_REASON: switch (upsval[0]) { case 'R': return "unacceptable utility voltage rate of change"; case 'H': return "high utility voltage"; case 'L': return "low utility voltage"; case 'T': return "line voltage notch or spike"; case 'O': return "no transfers yet since turnon"; case 'S': return "simulated power failure or UPS test"; default: strcpy(temp, upsval); return temp; } } /* this should never happen */ logx(LOG_CRIT, "unable to convert [%s]", vt->name); strcpy(temp, upsval); return temp; } /* report differences if tcsetattr != tcgetattr, return otherwise */ /* * Aix compatible names */ #if defined(VWERSE) && !defined(VWERASE) #define VWERASE VWERSE #endif /* VWERSE && !VWERASE */ #if defined(VDISCRD) && !defined(VDISCARD) #define VDISCARD VDISCRD #endif /* VDISCRD && !VDISCARD */ static void apc_ser_diff(struct termios *tioset, struct termios *tioget) { size_t i; const char dir[] = { 's', 'g' }; struct termios *tio[] = { tioset, tioget }; struct cchar { const char *name; unsigned int sub; }; const struct cchar cchars1[] = { #ifdef VDISCARD { "discard", VDISCARD }, #endif #ifdef VDSUSP { "dsusp", VDSUSP }, #endif { "eof", VEOF }, { "eol", VEOL }, { "eol2", VEOL2 }, { "erase", VERASE }, #ifdef VINTR { "intr", VINTR }, #endif { "kill", VKILL }, { "lnext", VLNEXT }, { "min", VMIN }, { "quit", VQUIT }, #ifdef VREPRINT { "reprint", VREPRINT }, #endif { "start", VSTART }, #ifdef VSTATUS { "status", VSTATUS }, #endif { "stop", VSTOP }, { "susp", VSUSP }, { "time", VTIME }, { "werase", VWERASE }, { NULL }, }, *cp; /* clear status flags so that they don't affect our binary compare */ #if defined(PENDIN) || defined(FLUSHO) for (i = 0; i < sizeof(tio)/sizeof(tio[0]); i++) { #ifdef PENDIN tio[i]->c_lflag &= ~PENDIN; #endif #ifdef FLUSHO tio[i]->c_lflag &= ~FLUSHO; #endif } #endif /* defined(PENDIN) || defined(FLUSHO) */ if (!memcmp(tio[0], tio[1], sizeof(*tio[0]))) return; upslogx(LOG_NOTICE, "%s: device reports different attributes than requested", device_path); /* * According to the manual the most common problem is mis-matched * combinations of input and output baud rates. If the combination is * not supported then neither are changed. This should not be a * problem here since we set them both to the same extremely common * rate of 2400. */ for (i = 0; i < sizeof(tio)/sizeof(tio[0]); i++) { upsdebugx(1, "tc%cetattr(): gfmt1:cflag=%x:iflag=%x:lflag=%x:oflag=%x:", dir[i], (unsigned int) tio[i]->c_cflag, (unsigned int) tio[i]->c_iflag, (unsigned int) tio[i]->c_lflag, (unsigned int) tio[i]->c_oflag); for (cp = cchars1; cp->name; ++cp) upsdebugx(1, "\t%s=%x:", cp->name, tio[i]->c_cc[cp->sub]); upsdebugx(1, "\tispeed=%d:ospeed=%d", (int) cfgetispeed(tio[i]), (int) cfgetospeed(tio[i])); } } static void apc_ser_set(void) { struct termios tio, tio_chk; char *val; /* * this must be called before the rest, as ser_set_speed() performs * early initialization of the port, apart from changing speed */ ser_set_speed(upsfd, device_path, B2400); val = getval("cable"); if (val && !strcasecmp(val, ALT_CABLE_1)) { if (ser_set_dtr(upsfd, 1) == -1) fatx("ser_set_dtr(%s) failed", device_path); if (ser_set_rts(upsfd, 0) == -1) fatx("ser_set_rts(%s) failed", device_path); } /* * that's all if we want simple non canonical mode; this is meant as a * compatibility measure for windows systems and perhaps some * problematic serial cards/converters */ if ((val = getval("ttymode")) && !strcmp(val, "raw")) return; memset(&tio, 0, sizeof(tio)); errno = 0; if (tcgetattr(upsfd, &tio)) fate("tcgetattr(%s)", device_path); /* set port mode: common stuff, canonical processing */ tio.c_cflag |= (CS8 | CLOCAL | CREAD); tio.c_lflag |= ICANON; #ifdef NOKERNINFO tio.c_lflag |= NOKERNINFO; #endif tio.c_lflag &= ~(ISIG | IEXTEN); tio.c_iflag |= (IGNCR | IGNPAR); tio.c_iflag &= ~(IXON | IXOFF); tio.c_cc[VEOL] = '*'; /* specially handled in apc_read() */ #ifdef _POSIX_VDISABLE tio.c_cc[VERASE] = _POSIX_VDISABLE; tio.c_cc[VKILL] = _POSIX_VDISABLE; tio.c_cc[VEOF] = _POSIX_VDISABLE; tio.c_cc[VEOL2] = _POSIX_VDISABLE; #endif if (tcflush(upsfd, TCIOFLUSH)) fate("tcflush(%s)", device_path); /* * warn: * Note, that tcsetattr() returns success if /any/ of the requested * changes could be successfully carried out. Thus the more complicated * test. */ if (tcsetattr(upsfd, TCSANOW, &tio)) fate("tcsetattr(%s)", device_path); memset(&tio_chk, 0, sizeof(tio_chk)); if (tcgetattr(upsfd, &tio_chk)) fate("tcgetattr(%s)", device_path); apc_ser_diff(&tio, &tio_chk); } static void ups_status_set(void) { status_init(); if (ups_status & APC_STAT_CAL) status_set("CAL"); /* calibration */ if (ups_status & APC_STAT_TRIM) status_set("TRIM"); /* SmartTrim */ if (ups_status & APC_STAT_BOOST) status_set("BOOST"); /* SmartBoost */ if (ups_status & APC_STAT_OL) status_set("OL"); /* on line */ if (ups_status & APC_STAT_OB) status_set("OB"); /* on battery */ if (ups_status & APC_STAT_OVER) status_set("OVER"); /* overload */ if (ups_status & APC_STAT_LB) status_set("LB"); /* low battery */ if (ups_status & APC_STAT_RB) status_set("RB"); /* replace batt */ if (ups_status == 0) status_set("OFF"); status_commit(); } static void alert_handler(char ch) { switch (ch) { case '!': /* clear OL, set OB */ debx(1, "OB"); ups_status &= ~APC_STAT_OL; ups_status |= APC_STAT_OB; break; case '$': /* clear OB, set OL */ debx(1, "OL"); ups_status &= ~APC_STAT_OB; ups_status |= APC_STAT_OL; break; case '%': /* set LB */ debx(1, "LB"); ups_status |= APC_STAT_LB; break; case '+': /* clear LB */ debx(1, "not LB"); ups_status &= ~APC_STAT_LB; break; case '#': /* set RB */ debx(1, "RB"); ups_status |= APC_STAT_RB; break; case '?': /* set OVER */ debx(1, "OVER"); ups_status |= APC_STAT_OVER; break; case '=': /* clear OVER */ debx(1, "not OVER"); ups_status &= ~APC_STAT_OVER; break; default: debx(1, "got 0x%02x (unhandled)", ch); break; } ups_status_set(); } /* * we need a tiny bit different processing due to '*' and canonical mode; the * function is subtly different from generic ser_get_line_alert() */ #define apc_read(b, l, f) apc_read_i(b, l, f, __func__, __LINE__) static int apc_read_i(char *buf, size_t buflen, int flags, const char *fn, unsigned int ln) { const char *iset = IGN_CHARS, *aset = ""; size_t count = 0; int i, ret, sec = 3, usec = 0; char temp[APC_LBUF]; if (upsfd == -1) return 0; if (flags & SER_D0) { sec = 0; usec = 0; } if (flags & SER_DX) { sec = 0; usec = 200000; } if (flags & SER_D1) { sec = 1; usec = 500000; } if (flags & SER_D3) { sec = 3; usec = 0; } if (flags & SER_AA) { iset = IGN_AACHARS; aset = ALERT_CHARS; } if (flags & SER_CC) { iset = IGN_CCCHARS; aset = ""; sec = 6; usec = 0; } if (flags & SER_CS) { iset = IGN_CSCHARS; aset = ""; sec = 6; usec = 0; } memset(buf, '\0', buflen); while (count < buflen - 1) { errno = 0; ret = select_read(upsfd, temp, sizeof(temp), sec, usec); /* partial timeout (non-canon only paranoid check) */ if (ret == 0 && count) { ser_comm_fail("serial port partial timeout: %u(%s)", ln, fn); return -1; } /* error or no timeout allowed */ if (ret < 0 || (ret == 0 && !(flags & SER_TO))) { if (ret) ser_comm_fail("serial port read error: %u(%s): %s", ln, fn, strerror(errno)); else ser_comm_fail("serial port read timeout: %u(%s)", ln, fn); return ret; } /* ok, timeout is acceptable */ if (ret == 0 && (flags & SER_TO)) { /* * but it doesn't imply ser_comm_good * * for example we might be in comm_fail condition, * trying to "nudge" the UPS with some command * obviously expecting timeout if the comm is still * lost. This would result with filling logs with * confusing comm lost/comm re-established pairs due to * successful serial writes */ return 0; } /* parse input */ for (i = 0; i < ret; i++) { /* overflow read */ if (count == buflen - 1) { ser_comm_fail("serial port read overflow: %u(%s)", ln, fn); tcflush(upsfd, TCIFLUSH); return -1; } /* standard "line received" condition */ if (temp[i] == ENDCHAR) { ser_comm_good(); return count; } /* * '*' is set as a secondary EOL; convert to 'OK' only as a * reply to shutdown command in sdok(); otherwise next * select_read() will continue normally */ if ((flags & SER_HA) && temp[i] == '*') { /* * a bit paranoid, but remember '*' is not real EOL; * there could be some firmware in existence, that * would send both string: 'OK\n' and alert: '*'. * Just in case, try to flush the input with small 1 sec. * timeout */ memset(buf, '\0', buflen); errno = 0; ret = select_read(upsfd, temp, sizeof(temp), 1, 0); if (ret < 0) { ser_comm_fail("serial port read error: %u(%s): %s", ln, fn, strerror(errno)); return ret; } buf[0] = 'O'; buf[1] = 'K'; ser_comm_good(); return 2; } /* ignore set */ if (strchr(iset, temp[i]) || temp[i] == '*') { continue; } /* alert set */ if (strchr(aset, temp[i])) { alert_handler(temp[i]); continue; } buf[count++] = temp[i]; } } ser_comm_good(); return count; } #define apc_write(code) apc_write_i(code, __func__, __LINE__) static int apc_write_i(unsigned char code, const char *fn, unsigned int ln) { int ret; errno = 0; if (upsfd == -1) return 0; ret = ser_send_char(upsfd, code); /* * Formally any write() sould never return 0, if the count != 0. For * the sake of handling any obscure nonsense, we consider such return * as a failure - thus <= condition; either way, LE is pretty hard * condition hardly ever happening; */ if (ret <= 0) ser_comm_fail("serial port write error: %u(%s): %s", ln, fn, strerror(errno)); return ret; } /* * We have to watch out for NA, here; * This is generally safe, as otherwise we will just timeout. The reason we do * it, is that under certain conditions an ups might respond with NA for * something it would normally handle (e.g. calling @ while being in powered * off or hibernated state. If we keep sending the "arguments" after getting * NA, they will be interpreted as commands, which is quite a bug :) * Furthermore later flushes might not work properly, if the reply to those * commands are generated with some delay. * * We also set errno to something usable, so outside upslog calls don't output * confusing "success". */ #define apc_write_long(code) apc_write_long_i(code, __func__, __LINE__) static int apc_write_long_i(const char *code, const char *fn, unsigned int ln) { char temp[APC_LBUF]; int ret; ret = apc_write_i(*code, fn, ln); if (ret != 1) return ret; /* peek for the answer - anything at this point is failure */ ret = apc_read(temp, sizeof(temp), SER_DX|SER_TO); if (ret) { errno = ECANCELED; return -1; } ret = ser_send_pace(upsfd, 50000, "%s", code + 1); if (ret >= 0) ret++; /* see remark in plain apc_write() */ if (ret != (int)strlen(code)) ser_comm_fail("serial port write error: %u(%s): %s", ln, fn, strerror(errno)); return ret; } #define apc_write_rep(code) apc_write_rep_i(code, __func__, __LINE__) static int apc_write_rep_i(unsigned char code, const char *fn, unsigned int ln) { char temp[APC_LBUF]; int ret; ret = apc_write_i(code, fn, ln); if (ret != 1) return ret; /* peek for the answer - anything at this point is failure */ ret = apc_read(temp, sizeof(temp), SER_DX|SER_TO); if (ret) { errno = ECANCELED; return -1; } usleep(1300000); ret = apc_write_i(code, fn, ln); if (ret >= 0) ret++; return ret; } /* all flags other than SER_AA are ignored */ static void apc_flush(int flags) { char temp[APC_LBUF]; if (flags & SER_AA) { tcflush(upsfd, TCOFLUSH); /* TODO */ while(apc_read(temp, sizeof(temp), SER_D0|SER_TO|SER_AA) > 0); } else { tcflush(upsfd, TCIOFLUSH); /* tcflush(upsfd, TCIFLUSH); */ /* while(apc_read(temp, sizeof(temp), SER_D0|SER_TO)); */ } } /* apc specific wrappers around set/del info - to handle "packed" variables */ void apc_dstate_delinfo(apc_vartab_t *vt, int skip) { char name[vt->nlen0], *nidx; int c; /* standard not packed var */ if (!(vt->flags & APC_PACK)) { dstate_delinfo(vt->name); return; } strcpy(name, vt->name); nidx = strstr(name,".0.") + 1; for (c = skip; c < vt->cnt; c++) { *nidx = (char)('1' + c); dstate_delinfo(name); } vt->cnt = 0; } void apc_dstate_setinfo(apc_vartab_t *vt, const char *upsval) { char name[vt->nlen0], *nidx; char temp[strlen(upsval) + 1], *vidx[APC_PACK_MAX], *com, *curr; int c; /* standard not packed var */ if (!(vt->flags & APC_PACK)) { dstate_setinfo(vt->name, "%s", convert_data(vt, upsval)); return; } /* we have to set proper name for dstate_setinfo() calls */ strcpy(name, vt->name); nidx = strstr(name,".0.") + 1; /* split the value string */ strcpy(temp, upsval); curr = temp; c = 0; do { vidx[c] = curr; com = strchr(curr, ','); if (com) { curr = com + 1; *com = '\0'; } } while(++c < APC_PACK_MAX && com); /* * unlikely, but keep things tidy - remove leftover values, if * subsequent read returns less */ if (vt->cnt > c) apc_dstate_delinfo(vt, c); /* unlikely - warn user if we have more than APC_PACK_MAX fields */ if (c == APC_PACK_MAX && com) upslogx(LOG_WARNING, "packed variable %s [%s] longer than %d fields,\n" "ignoring remaining fields", vt->name, prtchr(vt->cmd), c); vt->cnt = c; while (c-- > 0) { *nidx = (char)('1' + c); if (*vidx[c]) dstate_setinfo(name, "%s", convert_data(vt, vidx[c])); else dstate_setinfo(name, "N/A"); } } static const char *preread_data(apc_vartab_t *vt) { int ret; static char temp[APC_LBUF]; debx(1, "%s [%s]", vt->name, prtchr(vt->cmd)); apc_flush(0); ret = apc_write(vt->cmd); if (ret != 1) return 0; ret = apc_read(temp, sizeof(temp), SER_TO); if (ret < 1 || !strcmp(temp, "NA")) { if (ret >= 0) logx(LOG_ERR, "%s [%s] timed out or not supported", vt->name, prtchr(vt->cmd)); return 0; } return temp; } static int poll_data(apc_vartab_t *vt) { char temp[APC_LBUF]; if (!(vt->flags & APC_PRESENT)) return 1; debx(1, "%s [%s]", vt->name, prtchr(vt->cmd)); apc_flush(SER_AA); if (apc_write(vt->cmd) != 1) return 0; if (apc_read(temp, sizeof(temp), SER_AA) < 1) return 0; /* automagically no longer supported by the hardware somehow */ if (!strcmp(temp, "NA")) { logx(LOG_WARNING, "verified variable %s [%s] returned NA, removing", vt->name, prtchr(vt->cmd)); vt->flags &= ~APC_PRESENT; apc_dstate_delinfo(vt, 0); } else apc_dstate_setinfo(vt, temp); return 1; } static int update_status(void) { int ret; char buf[APC_LBUF]; debx(1, "[%s]", prtchr(APC_STATUS)); apc_flush(SER_AA); if (apc_write(APC_STATUS) != 1) return 0; ret = apc_read(buf, sizeof(buf), SER_AA); if ((ret < 1) || (!strcmp(buf, "NA"))) { if (ret >= 0) logx(LOG_WARNING, "failed"); return 0; } ups_status = strtol(buf, 0, 16) & 0xff; ups_status_set(); return 1; } /* * two informative functions, to not redo the same thing in few places */ static inline void confirm_cv(unsigned char cmd, const char *tag, const char *name) { upsdebugx(1, "%s [%s] - %s supported", name, prtchr(cmd), tag); } static inline void warn_cv(unsigned char cmd, const char *tag, const char *name) { if (tag && name) upslogx(LOG_WARNING, "%s [%s] - %s invalid", name, prtchr(cmd), tag); else upslogx(LOG_WARNING, "[%s] unrecognized", prtchr(cmd)); } static void var_string_setup(apc_vartab_t *vt) { /* * handle special data for our two strings; note - STRING variables * cannot be PACK at the same time */ if (vt->flags & APC_STRING) { dstate_setflags(vt->name, ST_FLAG_RW | ST_FLAG_STRING); dstate_setaux(vt->name, APC_STRLEN); vt->flags |= APC_RW; } } static int var_verify(apc_vartab_t *vt) { const char *temp; if (vt->flags & APC_MULTI) { /* APC_MULTI are handled by deprecate_vars() */ vt->flags |= APC_PRESENT; return -1; } temp = preread_data(vt); /* no conversion here, validator should operate on raw values */ if (!temp || !rexhlp(vt->regex, temp)) { warn_cv(vt->cmd, "variable", vt->name); return 0; } vt->flags |= APC_PRESENT; apc_dstate_setinfo(vt, temp); var_string_setup(vt); confirm_cv(vt->cmd, "variable", vt->name); return 1; } /* * This function iterates over vartab, deprecating nut<->apc 1:n and n:1 * variables. We prefer earliest present variable. All the other ones must be * marked as not present (which implies deprecation). * This pass is requried after completion of all protocol_verify() and/or * legacy_verify() calls. */ static void deprecate_vars(void) { int i, j; const char *temp; apc_vartab_t *vt, *vtn; for (i = 0; apc_vartab[i].name != NULL; i++) { vt = &apc_vartab[i]; if (!(vt->flags & APC_MULTI) || !(vt->flags & APC_PRESENT)) { /* * a) not interesting, or * b) not marked as present earlier, or already handled */ continue; } /* pre-read data, we have to verify it */ temp = preread_data(vt); /* no conversion here, validator should operate on raw values */ if (!temp || !rexhlp(vt->regex, temp)) { vt->flags &= ~APC_PRESENT; warn_cv(vt->cmd, "variable combination", vt->name); continue; } /* multi & present, deprecate all the remaining ones */ for (j = i + 1; apc_vartab[j].name != NULL; j++) { vtn = &apc_vartab[j]; if (strcmp(vtn->name, vt->name) && vtn->cmd != vt->cmd) continue; vtn->flags &= ~APC_PRESENT; } apc_dstate_setinfo(vt, temp); var_string_setup(vt); confirm_cv(vt->cmd, "variable combination", vt->name); } } static void apc_getcaps(int qco) { const char *ptr, *entptr; char upsloc, temp[APC_LBUF], cmd, loc, etmp[APC_SBUF], *endtemp; int nument, entlen, i, matrix, ret, valid; apc_vartab_t *vt; /* * If we can do caps, then we need the Firmware revision which has the * locale descriptor as the last character (ugh); this is valid for * both 'V' and 'b' commands. */ ptr = dstate_getinfo("ups.firmware"); if (ptr) upsloc = ptr[strlen(ptr) - 1]; else upsloc = 0; /* get capability string */ apc_flush(0); if (apc_write(APC_CAPS) != 1) return; /* * note - apc_read() needs larger timeout grace (not a problem w.r.t. * to nut's timing, as it's done only during setup) and different * ignore set due to certain characters like '#' being received */ ret = apc_read(temp, sizeof(temp), SER_CC|SER_TO); if ((ret < 1) || (!strcmp(temp, "NA"))) { /* * Early Smart-UPS not as smart as the later ones ... * this should never happen on properly functioning hardware - * as capability support was reported earlier */ if (ret >= 0) upslogx(LOG_WARNING, "APC cannot do capabilities but said it could !"); return; } /* recv always puts a \0 at the end, so this is safe */ /* however it assumes a zero byte cannot be embedded */ endtemp = &temp[0] + strlen(temp); if (temp[0] != '#') { upslogx(LOG_WARNING, "unknown capability start char [%c] !", temp[0]); upsdebugx(1, "please report this caps string: %s", temp); return; } if (temp[1] == '#') { /* Matrix-UPS */ ptr = &temp[0]; matrix = 1; } else { ptr = &temp[1]; matrix = 0; } /* command char, location, # of entries, entry length */ while (ptr[0] != '\0') { if (matrix) ptr += 2; /* jump over repeating ## */ /* check for idiocy */ if (ptr >= endtemp) { /* if we expected this, just ignore it */ if (qco) return; fatalx(EXIT_FAILURE, "capability string has overflowed, please report this error !"); } cmd = ptr[0]; loc = ptr[1]; nument = ptr[2] - 48; entlen = ptr[3] - 48; entptr = &ptr[4]; vt = vt_lookup_char(cmd); valid = vt && ((loc == upsloc) || (loc == '4')) && !(vt->flags & APC_PACK); /* mark this as writable */ if (valid) { upsdebugx(1, "%s [%s(%c)] - capability supported", vt->name, prtchr(cmd), loc); dstate_setflags(vt->name, ST_FLAG_RW); /* make sure setvar knows what this is */ vt->flags |= APC_RW | APC_ENUM; } else if (vt->flags & APC_PACK) /* * Currently we assume - basing on the following * feedback: * http://www.mail-archive.com/nut-upsdev@lists.alioth.debian.org/msg03398.html * - that "packed" variables are not enumerable; if at * some point in the future it turns out to be false, * the handling will have to be a bit more complex */ upslogx(LOG_WARNING, "WARN: packed APC variable %s [%s] reported as enumerable,\n" "please report it on the mailing list", vt->name, prtchr(cmd)); for (i = 0; i < nument; i++) { if (valid) { snprintf(etmp, entlen + 1, "%s", entptr); dstate_addenum(vt->name, "%s", convert_data(vt, etmp)); } entptr += entlen; } ptr = entptr; } } static void legacy_verify(const char *var) { int i; /* * note: some NUT variables map onto multiple APC ones, e.g. firmware: * V,b -> ups.firmware; that's why we keep the loop, as it's over NUT * names */ for (i = 0; apc_vartab[i].name != NULL; i++) { if (strcmp(apc_vartab[i].name, var)) continue; var_verify(&apc_vartab[i]); } } static void protocol_verify(unsigned char cmd) { int i, found; apc_vartab_t *vt; apc_cmdtab_t *ct; /* don't bother with cmd/var we don't care about */ if (strchr(APC_UNR_CMDS, cmd)) return; /* * loop necessary for apc:nut 1:n cases (e.g. T -> device.uptime, * ambient.0.temperature) */ found = 0; for (i = 0; apc_vartab[i].name != NULL; i++) { vt = &apc_vartab[i]; if (vt->cmd != cmd) continue; var_verify(vt); found = 1; } if (found) return; /* * see if it's a command * loop necessary for apc:nut 1:n cases (e.g. D -> calibrate.start, * calibrate.stop) */ found = 0; for (i = 0; apc_cmdtab[i].name != NULL; i++) { ct = &apc_cmdtab[i]; if (ct->cmd != cmd) continue; ct->flags |= APC_PRESENT; dstate_addcmd(ct->name); confirm_cv(cmd, "command", ct->name); found = 1; } if (found) return; /* * epilogue - unrecognized command / variable not included * in APC_UNR_CMDS */ warn_cv(cmd, NULL, NULL); } static void oldapcsetup(void) { /* * note: battery.date and ups.id make little sense here, as * that would imply writability and this is an *old* apc psu */ legacy_verify("ups.temperature"); legacy_verify("ups.load"); legacy_verify("input.voltage"); legacy_verify("output.voltage"); legacy_verify("battery.charge"); legacy_verify("battery.voltage"); /* these will usually timeout */ legacy_verify("ups.model"); legacy_verify("ups.serial"); legacy_verify("ups.firmware"); legacy_verify("output.current"); deprecate_vars(); /* see if this might be an old Matrix-UPS instead */ if (vt_lookup_name("output.current")) dstate_setinfo("ups.model", "Matrix-UPS"); else { /* really old models don't support ups.model (apc: 0x01) */ if (!vt_lookup_name("ups.model")) /* force the model name */ dstate_setinfo("ups.model", "Smart-UPS"); } /* * If we have come down this path then we dont do capabilities and * other shiny features. */ } /* some hardware is a special case - hotwire the list of cmdchars */ static int firmware_table_lookup(void) { int ret; unsigned int i, j; char buf[APC_LBUF]; upsdebugx(1, "attempting firmware lookup using [%s]", prtchr(APC_FW_OLD)); apc_flush(0); if (apc_write(APC_FW_OLD) != 1) return 0; if ((ret = apc_read(buf, sizeof(buf), SER_TO)) < 0) return 0; /* * Some UPSes support both 'V' and 'b'. As 'b' doesn't always return * firmware version, we attempt that only if 'V' doesn't work. */ if (!ret || !strcmp(buf, "NA")) { upsdebugx(1, "attempting firmware lookup using [%s]", prtchr(APC_FW_NEW)); if (apc_write(APC_FW_NEW) != 1) return 0; if (apc_read(buf, sizeof(buf), SER_TO) < 1) return 0; } upsdebugx(1, "detected firmware version: %s", buf); /* this will be reworked if we get a lot of these things */ if (!strcmp(buf, "451.2.I")) { /* quirk_capability_overflow */ upsdebugx(1, "WARN: quirky firmware !"); return 2; } if (rexhlp("^[a-fA-F0-9]{2}$", buf)) { /* * certain old set of UPSes that return voltage above 255V * through 'b'; see: * http://article.gmane.org/gmane.comp.monitoring.nut.user/7762 */ strcpy(buf, "set\1"); } for (i = 0; apc_compattab[i].firmware != NULL; i++) { if (!strcmp(apc_compattab[i].firmware, buf)) { upsdebugx(1, "matched firmware: %s", apc_compattab[i].firmware); /* magic ? */ if (strspn(apc_compattab[i].firmware, "05")) { dstate_setinfo("ups.model", "Matrix-UPS"); } else { dstate_setinfo("ups.model", "Smart-UPS"); } /* matched - run the cmdchars from the table */ upsdebugx(1, "parsing out supported cmds and vars"); for (j = 0; j < strlen(apc_compattab[i].cmdchars); j++) protocol_verify(apc_compattab[i].cmdchars[j]); deprecate_vars(); return 1; /* matched */ } } return 0; } static int getbaseinfo(void) { unsigned int i; int ret, qco; char *cmds, temp[APC_LBUF]; /* * try firmware lookup first; we could start with 'a', but older models * sometimes return other things than a command set */ qco = firmware_table_lookup(); if (qco == 1) /* found compat */ return 1; upsdebugx(1, "attempting var/cmdset lookup using [%s]", prtchr(APC_CMDSET)); /* * Initially we ask the UPS what commands it takes. If this fails we are * going to need an alternate strategy - we can deal with that if it * happens */ apc_flush(0); if (apc_write(APC_CMDSET) != 1) return 0; if ((ret = apc_read(temp, sizeof(temp), SER_CS|SER_TO)) < 0) return 0; if (!ret || !strcmp(temp, "NA") || !rexhlp(APC_CMDSET_FMT, temp)) { /* We have an old dumb UPS - go to specific code for old stuff */ upslogx(LOG_NOTICE, "very old or unknown APC model, support will be limited"); oldapcsetup(); return 1; } upsdebugx(1, "parsing out supported cmds/vars"); /* * returned set is verified for validity above, so just extract * what's interesting for us */ cmds = strrchr(temp, '.'); for (i = 1; i < strlen(cmds); i++) protocol_verify(cmds[i]); deprecate_vars(); /* if capabilities are supported, add them here */ if (strchr(cmds, APC_CAPS)) { upsdebugx(1, "parsing out caps"); apc_getcaps(qco); } return 1; } /* check for calibration status and either start or stop */ static int do_cal(int start) { char temp[APC_LBUF]; int tval, ret; apc_flush(SER_AA); ret = apc_write(APC_STATUS); if (ret != 1) { return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } ret = apc_read(temp, sizeof(temp), SER_AA); /* if we can't check the current calibration status, bail out */ if ((ret < 1) || (!strcmp(temp, "NA"))) { upslogx(LOG_WARNING, "runtime calibration state undeterminable"); return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } tval = strtol(temp, 0, 16); if (tval & APC_STAT_CAL) { /* calibration currently happening */ if (start == 1) { /* requested start while calibration still running */ upslogx(LOG_NOTICE, "runtime calibration already in progress"); return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } /* stop requested */ upslogx(LOG_NOTICE, "stopping runtime calibration"); ret = apc_write(APC_CMD_CALTOGGLE); if (ret != 1) { return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } ret = apc_read(temp, sizeof(temp), SER_AA); if ((ret < 1) || (!strcmp(temp, "NA")) || (!strcmp(temp, "NO"))) { upslogx(LOG_WARNING, "stop calibration failed, cmd returned: %s", temp); return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } return STAT_INSTCMD_HANDLED; /* FUTURE: success */ } /* calibration not happening */ if (start == 0) { /* stop requested */ upslogx(LOG_NOTICE, "runtime calibration not occurring"); return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } upslogx(LOG_NOTICE, "starting runtime calibration"); ret = apc_write(APC_CMD_CALTOGGLE); if (ret != 1) { return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } ret = apc_read(temp, sizeof(temp), SER_AA); if ((ret < 1) || (!strcmp(temp, "NA")) || (!strcmp(temp, "NO"))) { upslogx(LOG_WARNING, "start calibration failed, cmd returned: %s", temp); return STAT_INSTCMD_HANDLED; /* FUTURE: failure */ } return STAT_INSTCMD_HANDLED; /* FUTURE: success */ } #if 0 /* get the UPS talking to us in smart mode */ static int smartmode(void) { int ret; char temp[APC_LBUF]; apc_flush(0); ret = apc_write(APC_GOSMART); if (ret != 1) { return 0; } ret = apc_read(temp, sizeof(temp), 0); if ((ret < 1) || (!strcmp(temp, "NA")) || (!strcmp(temp, "NO"))) { upslogx(LOG_CRIT, "enabling smartmode failed !"); return 0; } return 1; } #endif /* * get the UPS talking to us in smart mode * note: this is weird overkill, but possibly excused due to some obscure * hardware/firmware combinations; simpler version commmented out above, for * now let's keep minimally adjusted old one */ static int smartmode(int cnt) { int ret, tries; char temp[APC_LBUF]; for (tries = 0; tries < cnt; tries++) { apc_flush(0); if (apc_write(APC_GOSMART) != 1) return 0; /* timeout here is intented */ ret = apc_read(temp, sizeof(temp), SER_TO|SER_D1); if (ret > 0 && !strcmp(temp, "SM")) return 1; /* success */ if (ret < 0) /* error, so we didn't timeout - wait a bit before retry */ sleep(1); if (apc_write(27) != 1) /* ESC */ return 0; /* eat the response (might be NA, might be something else) */ apc_read(temp, sizeof(temp), SER_TO|SER_D1); } return 0; /* failure */ } /* * all shutdown commands should respond with 'OK' or '*' * apc_read() handles conversion to 'OK' so we care only about that one * ign allows for timeout without assuming an error */ static int sdok(int ign) { int ret; char temp[APC_SBUF]; /* * older upses on failed commands might just timeout, we cut down * timeout grace though * furthermore, command 'Z' will not reply with anything */ ret = apc_read(temp, sizeof(temp), SER_HA|SER_D1|SER_TO); if (ret < 0) return STAT_INSTCMD_FAILED; debx(1, "got \"%s\"", temp); if ((!ret && ign) || !strcmp(temp, "OK")) { debx(1, "last shutdown cmd succeded"); return STAT_INSTCMD_HANDLED; } debx(1, "last shutdown cmd failed"); return STAT_INSTCMD_FAILED; } /* soft hibernate: S - working only when OB, otherwise ignored */ static int sdcmd_S(const void *foo) { apc_flush(0); if (!foo) debx(1, "issuing [%s]", prtchr(APC_CMD_SOFTDOWN)); if (apc_write(APC_CMD_SOFTDOWN) != 1) return STAT_INSTCMD_FAILED; return sdok(0); } /* soft hibernate, hack version for CS 350 & co. */ static int sdcmd_CS(const void *foo) { int ret; char temp[APC_SBUF]; debx(1, "issuing CS 'hack' [%s+%s]", prtchr(APC_CMD_SIMPWF), prtchr(APC_CMD_SOFTDOWN)); if (ups_status & APC_STAT_OL) { apc_flush(0); debx(1, "issuing [%s]", prtchr(APC_CMD_SIMPWF)); ret = apc_write(APC_CMD_SIMPWF); if (ret != 1) { return STAT_INSTCMD_FAILED; } /* eat response, allow timeout */ ret = apc_read(temp, sizeof(temp), SER_D1|SER_TO); if (ret < 0) { return STAT_INSTCMD_FAILED; } } /* continue with regular soft hibernate */ return sdcmd_S((void *)1); } /* * hard hibernate: @nnn / @nn * note: works differently for older and new models, see manual page for * thorough explanation */ static int sdcmd_AT(const void *str) { int ret, cnt, padto, i; const char *awd = str; char temp[APC_SBUF], *ptr; if (!awd) awd = "000"; cnt = strlen(awd); padto = cnt == 2 ? 2 : 3; temp[0] = APC_CMD_GRACEDOWN; ptr = temp + 1; for (i = cnt; i < padto ; i++) { *ptr++ = '0'; } strcpy(ptr, awd); debx(1, "issuing [%s] with %d minutes of additional wakeup delay", prtchr(APC_CMD_GRACEDOWN), (int)strtol(awd, NULL, 10)*6); apc_flush(0); ret = apc_write_long(temp); if (ret != padto + 1) { upslogx(LOG_ERR, "issuing [%s] with %d digits failed", prtchr(APC_CMD_GRACEDOWN), padto); return STAT_INSTCMD_FAILED; } ret = sdok(0); if (ret == STAT_INSTCMD_HANDLED || padto == 3) return ret; upslogx(LOG_ERR, "command [%s] with 2 digits doesn't work - try 3 digits", prtchr(APC_CMD_GRACEDOWN)); /* * "tricky" part - we tried @nn variation and it (unsurprisingly) * failed; we have to abort the sequence with something bogus to have * the clean state; newer upses will respond with 'NO', older will be * silent (YMMV); */ apc_write(APC_GOSMART); /* eat response, allow it to timeout */ apc_read(temp, sizeof(temp), SER_D1|SER_TO); return STAT_INSTCMD_FAILED; } /* shutdown: K - delayed poweroff */ static int sdcmd_K(const void *foo) { int ret; debx(1, "issuing [%s]", prtchr(APC_CMD_SHUTDOWN)); apc_flush(0); ret = apc_write_rep(APC_CMD_SHUTDOWN); if (ret != 2) return STAT_INSTCMD_FAILED; return sdok(0); } /* shutdown: Z - immediate poweroff */ static int sdcmd_Z(const void *foo) { int ret; debx(1, "issuing [%s]", prtchr(APC_CMD_OFF)); apc_flush(0); ret = apc_write_rep(APC_CMD_OFF); if (ret != 2) { return STAT_INSTCMD_FAILED; } /* note: ups will not reply anything after this command */ return sdok(1); } static void upsdrv_shutdown_simple(void) { unsigned int sdtype = 0; const char *val; if ((val = getval("sdtype"))) sdtype = strtol(val, NULL, 10); debx(1, "currently: %s, sdtype: %d", (ups_status & APC_STAT_OL) ? "on-line" : "on battery", sdtype); switch (sdtype) { case 5: /* hard hibernate */ sdcmd_AT(getval("awd")); break; case 4: /* special hack for CS 350 and similar models */ sdcmd_CS(0); break; case 3: /* delayed poweroff */ sdcmd_K(0); break; case 2: /* instant poweroff */ sdcmd_Z(0); break; case 1: /* * Send a combined set of shutdown commands which can work * better if the UPS gets power during shutdown process * Specifically it sends both the soft shutdown 'S' and the * hard hibernate '@nnn' commands */ /* S works only when OB */ if (!(ups_status & APC_STAT_OB) || sdcmd_S(0) != STAT_INSTCMD_HANDLED) sdcmd_AT(getval("awd")); break; default: /* * Send @nnn or S, depending on OB / OL status */ if (ups_status & APC_STAT_OL) /* on line */ sdcmd_AT(getval("awd")); else sdcmd_S(0); } } static void upsdrv_shutdown_advanced(void) { const void *arg; const char *val; size_t i, len; val = getval("advorder"); len = strlen(val); debx(1, "currently: %s, advorder: %s", (ups_status & APC_STAT_OL) ? "on-line" : "on battery", val); /* * try each method in the list with a little bit of handling in certain * cases */ for (i = 0; i < len; i++) { switch (val[i] - '0') { case SDIDX_AT: arg = getval("awd"); break; default: arg = NULL; } if (sdlist[val[i] - '0'](arg) == STAT_INSTCMD_HANDLED) break; /* finish if command succeeded */ } } /* power down the attached load immediately */ void upsdrv_shutdown(void) { char temp[APC_LBUF]; if (!smartmode(1)) logx(LOG_WARNING, "setting SmartMode failed !"); /* check the line status */ if (apc_write(APC_STATUS) == 1) { if (apc_read(temp, sizeof(temp), SER_D1) == 1) { ups_status = strtol(temp, 0, 16); } else { logx(LOG_WARNING, "status read failed, assuming LB+OB"); ups_status = APC_STAT_LB | APC_STAT_OB; } } else { logx(LOG_WARNING, "status write failed, assuming LB+OB"); ups_status = APC_STAT_LB | APC_STAT_OB; } if (testvar("advorder") && toupper(*getval("advorder")) != 'N') upsdrv_shutdown_advanced(); else upsdrv_shutdown_simple(); } static int update_info(int all) { int i; debx(1, "starting scan%s", all ? " (all vars)" : ""); for (i = 0; apc_vartab[i].name != NULL; i++) { if (!all && (apc_vartab[i].flags & APC_POLL) == 0) continue; if (!poll_data(&apc_vartab[i])) { debx(1, "aborting scan"); return 0; } } debx(1, "scan completed"); return 1; } static int setvar_enum(apc_vartab_t *vt, const char *val) { int i, ret; char orig[APC_LBUF], temp[APC_LBUF]; const char *ptr; apc_flush(SER_AA); if (apc_write(vt->cmd) != 1) return STAT_SET_FAILED; ret = apc_read(orig, sizeof(orig), SER_AA); if ((ret < 1) || (!strcmp(orig, "NA"))) return STAT_SET_FAILED; ptr = convert_data(vt, orig); /* suppress redundant changes - easier on the eeprom */ if (!strcmp(ptr, val)) { logx(LOG_INFO, "ignoring SET %s='%s' (unchanged value)", vt->name, val); return STAT_SET_HANDLED; /* FUTURE: no change */ } for (i = 0; i < 6; i++) { if (apc_write(APC_NEXTVAL) != 1) return STAT_SET_FAILED; /* this should return either OK (if rotated) or NO (if not) */ ret = apc_read(temp, sizeof(temp), SER_AA); if ((ret < 1) || (!strcmp(temp, "NA"))) return STAT_SET_FAILED; /* sanity checks */ if (!strcmp(temp, "NO")) return STAT_SET_FAILED; if (strcmp(temp, "OK")) return STAT_SET_FAILED; /* see what it rotated onto */ if (apc_write(vt->cmd) != 1) return STAT_SET_FAILED; ret = apc_read(temp, sizeof(temp), SER_AA); if ((ret < 1) || (!strcmp(temp, "NA"))) return STAT_SET_FAILED; ptr = convert_data(vt, temp); debx(1, "rotate - got [%s], want [%s]", ptr, val); if (!strcmp(ptr, val)) { /* got it */ logx(LOG_INFO, "SET %s='%s'", vt->name, val); /* refresh data from the hardware */ poll_data(vt); return STAT_SET_HANDLED; /* FUTURE: success */ } /* check for wraparound */ if (!strcmp(ptr, orig)) { logx(LOG_ERR, "variable %s wrapped", vt->name); return STAT_SET_FAILED; } } logx(LOG_ERR, "gave up after 6 tries for %s", vt->name); /* refresh data from the hardware */ poll_data(vt); return STAT_SET_FAILED; } static int setvar_string(apc_vartab_t *vt, const char *val) { unsigned int i; int ret; char temp[APC_LBUF], *ptr; /* sanitize length */ if (strlen(val) > APC_STRLEN) { logx(LOG_ERR, "value (%s) too long", val); return STAT_SET_FAILED; } apc_flush(SER_AA); if (apc_write(vt->cmd) != 1) return STAT_SET_FAILED; ret = apc_read(temp, sizeof(temp), SER_AA); if ((ret < 1) || (!strcmp(temp, "NA"))) return STAT_SET_FAILED; /* suppress redundant changes - easier on the eeprom */ if (!strcmp(temp, val)) { logx(LOG_INFO, "ignoring SET %s='%s' (unchanged value)", vt->name, val); return STAT_SET_HANDLED; /* FUTURE: no change */ } /* length sanitized above */ temp[0] = APC_NEXTVAL; strcpy(temp + 1, val); ptr = temp + strlen(temp); for (i = strlen(val); i < APC_STRLEN; i++) *ptr++ = '\015'; /* pad with CRs */ *ptr = 0; if (apc_write_long(temp) != APC_STRLEN + 1) return STAT_SET_FAILED; ret = apc_read(temp, sizeof(temp), SER_AA); if (ret < 1) { logx(LOG_ERR, "short final read"); return STAT_SET_FAILED; } if (!strcmp(temp, "NO")) { logx(LOG_ERR, "got NO at final read"); return STAT_SET_FAILED; } /* refresh data from the hardware */ poll_data(vt); logx(LOG_INFO, "SET %s='%s'", vt->name, val); return STAT_SET_HANDLED; /* FUTURE: success */ } static int setvar(const char *varname, const char *val) { apc_vartab_t *vt; vt = vt_lookup_name(varname); if (!vt) return STAT_SET_UNKNOWN; if ((vt->flags & APC_RW) == 0) { logx(LOG_WARNING, "[%s] is not writable", varname); return STAT_SET_UNKNOWN; } if (vt->flags & APC_ENUM) return setvar_enum(vt, val); if (vt->flags & APC_STRING) return setvar_string(vt, val); logx(LOG_WARNING, "unknown type for [%s]", varname); return STAT_SET_UNKNOWN; } /* load on */ static int do_loadon(void) { apc_flush(0); debx(1, "issuing [%s]", prtchr(APC_CMD_ON)); if (apc_write_rep(APC_CMD_ON) != 2) return STAT_INSTCMD_FAILED; /* * ups will not reply anything after this command, but might * generate brief OVER condition (which will be corrected on * the next status update) */ debx(1, "[%s] completed", prtchr(APC_CMD_ON)); return STAT_INSTCMD_HANDLED; } /* actually send the instcmd's char to the ups */ static int do_cmd(const apc_cmdtab_t *ct) { int ret, c; char temp[APC_LBUF]; apc_flush(SER_AA); if (ct->flags & APC_REPEAT) { ret = apc_write_rep(ct->cmd); c = 2; } else { ret = apc_write(ct->cmd); c = 1; } if (ret != c) { return STAT_INSTCMD_FAILED; } ret = apc_read(temp, sizeof(temp), SER_AA); if (ret < 1) return STAT_INSTCMD_FAILED; if (strcmp(temp, "OK")) { logx(LOG_WARNING, "got [%s] after command [%s]", temp, ct->name); return STAT_INSTCMD_FAILED; } logx(LOG_INFO, "%s completed", ct->name); return STAT_INSTCMD_HANDLED; } /* some commands must be repeated in a window to execute */ static int instcmd_chktime(apc_cmdtab_t *ct, const char *ext) { double elapsed; time_t now; static time_t last = 0; time(&now); elapsed = difftime(now, last); last = now; /* you have to hit this in a small window or it fails */ if ((elapsed < MINCMDTIME) || (elapsed > MAXCMDTIME)) { debx(1, "outside window for [%s %s] (%2.0f)", ct->name, ext ? ext : "\b", elapsed); return 0; } return 1; } static int instcmd(const char *cmd, const char *ext) { int i; apc_cmdtab_t *ct = NULL; for (i = 0; apc_cmdtab[i].name != NULL; i++) { /* cmd must match */ if (strcasecmp(apc_cmdtab[i].name, cmd)) continue; /* if cmd specifies regex, ext must match */ if (apc_cmdtab[i].ext) { if (!rexhlp(apc_cmdtab[i].ext, ext)) continue; /* if cmd doesn't specify regex, ext must be NULL */ } else { if (ext) continue; } ct = &apc_cmdtab[i]; break; } if (!ct) { logx(LOG_WARNING, "unknown command [%s %s]", cmd, ext ? ext : "\b"); return STAT_INSTCMD_INVALID; } if (!(ct->flags & APC_PRESENT)) { logx(LOG_WARNING, "command [%s %s] recognized, but" " not supported by your UPS model", cmd, ext ? ext : "\b"); return STAT_INSTCMD_INVALID; } /* first verify if the command is "nasty" */ if ((ct->flags & APC_NASTY) && !instcmd_chktime(ct, ext)) return STAT_INSTCMD_HANDLED; /* future: again */ /* we're good to go, handle special stuff first, then generic cmd */ if (!strcasecmp(cmd, "calibrate.start")) return do_cal(1); if (!strcasecmp(cmd, "calibrate.stop")) return do_cal(0); if (!strcasecmp(cmd, "load.on")) return do_loadon(); if (!strcasecmp(cmd, "load.off")) return sdcmd_Z(0); if (!strcasecmp(cmd, "shutdown.stayoff")) return sdcmd_K(0); if (!strcasecmp(cmd, "shutdown.return")) { if (!ext || !*ext) return sdcmd_S(0); if (toupper(*ext) == 'A') return sdcmd_AT(ext + 3); if (toupper(*ext) == 'C') return sdcmd_CS(0); } /* nothing special here */ return do_cmd(ct); } /* install pointers to functions for msg handlers called from msgparse */ static void setuphandlers(void) { upsh.setvar = setvar; upsh.instcmd = instcmd; } /* ---- functions that interface with main.c ------------------------------- */ void upsdrv_makevartable(void) { addvar(VAR_VALUE, "ttymode", "tty discipline selection"); addvar(VAR_VALUE, "cable", "alternate cable (940-0095B) selection"); addvar(VAR_VALUE, "awd", "hard hibernate's additional wakeup delay"); addvar(VAR_VALUE, "sdtype", "simple shutdown method"); addvar(VAR_VALUE, "advorder", "advanced shutdown control"); } void upsdrv_help(void) { printf( "\nFor detailed information, please refer to:\n" " - apcsmart(8)\n" " - http://www.networkupstools.org/docs/man/apcsmart.html\n" ); } void upsdrv_initups(void) { char *val; apc_vartab_t *ptr; /* sanitize awd (additional waekup delay of '@' command) */ if ((val = getval("awd")) && !rexhlp(APC_AWDFMT, val)) { fatalx(EXIT_FAILURE, "invalid value (%s) for option 'awd'", val); } /* sanitize sdtype */ if ((val = getval("sdtype")) && !rexhlp(APC_SDFMT, val)) { fatalx(EXIT_FAILURE, "invalid value (%s) for option 'sdtype'", val); } /* sanitize advorder */ if ((val = getval("advorder")) && !rexhlp(APC_ADVFMT, val)) { fatalx(EXIT_FAILURE, "invalid value (%s) for option 'advorder'", val); } upsfd = extrafd = ser_open(device_path); apc_ser_set(); /* fill length values */ for (ptr = apc_vartab; ptr->name; ptr++) ptr->nlen0 = strlen(ptr->name) + 1; } void upsdrv_cleanup(void) { char temp[APC_LBUF]; if (upsfd == -1) return; apc_flush(0); /* try to bring the UPS out of smart mode */ apc_write(APC_GODUMB); apc_read(temp, sizeof(temp), SER_TO); ser_close(upsfd, device_path); } void upsdrv_initinfo(void) { const char *pmod, *pser; if (!smartmode(5)) { fatalx(EXIT_FAILURE, "unable to detect an APC Smart protocol UPS on port %s\n" "check the cabling, port name or model name and try again", device_path ); } if (!getbaseinfo()) { fatalx(EXIT_FAILURE, "Problems with communicating APC UPS on port %s\n", device_path ); } /* manufacturer ID - hardcoded in this particular module */ dstate_setinfo("ups.mfr", "APC"); if (!(pmod = dstate_getinfo("ups.model"))) pmod = "\"unknown model\""; if (!(pser = dstate_getinfo("ups.serial"))) pser = "unknown serial"; upsdebugx(1, "detected %s [%s] on %s", pmod, pser, device_path); setuphandlers(); /* * seems to be ok so far, it must be set so initial call of * upsdrv_updateinfo() doesn't begin with stale condition */ dstate_dataok(); } void upsdrv_updateinfo(void) { static int last_worked = 0; static time_t last_full = 0; int all; time_t now; /* try to wake up a dead ups once in awhile */ if (dstate_is_stale()) { if (!last_worked) debx(1, "comm lost"); /* reset this so a full update runs when the UPS returns */ last_full = 0; if (++last_worked < 10) return; /* become aggressive after a few tries */ debx(1, "nudging ups with 'Y', iteration #%d ...", last_worked); if (!smartmode(1)) return; last_worked = 0; } if (!update_status()) { dstate_datastale(); return; } time(&now); /* refresh all variables hourly */ /* does not catch measure-ups II insertion/removal */ if (difftime(now, last_full) > 3600) { last_full = now; all = 1; } else all = 0; if (update_info(all)) { dstate_dataok(); } else { dstate_datastale(); } }