/* * This file is part of the libsigrok project. * * Copyright (C) 2012-2013 Uwe Hermann * * 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ /** * @file * * Metex 14-bytes ASCII protocol parser. * * @internal * This should work for various multimeters which use this kind of protocol, * even though there is some variation in which modes each DMM supports. * * It does _not_ work for all Metex DMMs, some use a quite different protocol. */ #include #include #include #include #include "libsigrok.h" #include "libsigrok-internal.h" #define LOG_PREFIX "metex14" /** Parse value from buf, byte 2-8. */ static int parse_value(const uint8_t *buf, struct metex14_info *info, float *result) { int i, is_ol, cnt; char valstr[7 + 1]; /* Strip all spaces from bytes 2-8. */ memset(&valstr, 0, 7 + 1); for (i = 0, cnt = 0; i < 7; i++) { if (buf[2 + i] != ' ') valstr[cnt++] = buf[2 + i]; } /* Bytes 5-7: Over limit (various forms) */ is_ol = 0; is_ol += (!strcasecmp((const char *)&valstr, ".OL")) ? 1 : 0; is_ol += (!strcasecmp((const char *)&valstr, "O.L")) ? 1 : 0; is_ol += (!strcasecmp((const char *)&valstr, "OL.")) ? 1 : 0; is_ol += (!strcasecmp((const char *)&valstr, "OL")) ? 1 : 0; is_ol += (!strcasecmp((const char *)&valstr, "-.OL")) ? 1 : 0; is_ol += (!strcasecmp((const char *)&valstr, "-O.L")) ? 1 : 0; is_ol += (!strcasecmp((const char *)&valstr, "-OL.")) ? 1 : 0; is_ol += (!strcasecmp((const char *)&valstr, "-OL")) ? 1 : 0; if (is_ol != 0) { sr_spew("Over limit."); *result = INFINITY; return SR_OK; } /* Logic functions */ if (!strcmp((const char *)&valstr, "READY") || !strcmp((const char *)&valstr, "FLOAT")) { *result = INFINITY; info->is_logic = TRUE; } else if (!strcmp((const char *)&valstr, "Hi")) { *result = 1.0; info->is_logic = TRUE; } else if (!strcmp((const char *)&valstr, "Lo")) { *result = 0.0; info->is_logic = TRUE; } if (info->is_logic) return SR_OK; /* Bytes 2-8: Sign, value (up to 5 digits) and decimal point */ sscanf((const char *)&valstr, "%f", result); sr_spew("The display value is %f.", *result); return SR_OK; } static void parse_flags(const char *buf, struct metex14_info *info) { int i, cnt; char unit[4 + 1]; const char *u; /* Bytes 0-1: Measurement mode AC, DC */ info->is_ac = !strncmp(buf, "AC", 2); info->is_dc = !strncmp(buf, "DC", 2); /* Bytes 2-8: See parse_value(). */ /* Strip all spaces from bytes 9-12. */ memset(&unit, 0, 4 + 1); for (i = 0, cnt = 0; i < 4; i++) { if (buf[9 + i] != ' ') unit[cnt++] = buf[9 + i]; } /* Bytes 9-12: Unit */ u = (const char *)&unit; if (!strcasecmp(u, "A")) info->is_ampere = TRUE; else if (!strcasecmp(u, "mA")) info->is_milli = info->is_ampere = TRUE; else if (!strcasecmp(u, "uA")) info->is_micro = info->is_ampere = TRUE; else if (!strcasecmp(u, "V")) info->is_volt = TRUE; else if (!strcasecmp(u, "mV")) info->is_milli = info->is_volt = TRUE; else if (!strcasecmp(u, "Ohm")) info->is_ohm = TRUE; else if (!strcasecmp(u, "KOhm")) info->is_kilo = info->is_ohm = TRUE; else if (!strcasecmp(u, "MOhm")) info->is_mega = info->is_ohm = TRUE; else if (!strcasecmp(u, "pF")) info->is_pico = info->is_farad = TRUE; else if (!strcasecmp(u, "nF")) info->is_nano = info->is_farad = TRUE; else if (!strcasecmp(u, "uF")) info->is_micro = info->is_farad = TRUE; else if (!strcasecmp(u, "KHz")) info->is_kilo = info->is_hertz = TRUE; else if (!strcasecmp(u, "C")) info->is_celsius = TRUE; else if (!strcasecmp(u, "DB")) info->is_decibel = TRUE; else if (!strcasecmp(u, "")) info->is_unitless = TRUE; /* Bytes 0-1: Measurement mode, except AC/DC */ info->is_resistance = !strncmp(buf, "OH", 2) || (!strncmp(buf, " ", 2) && info->is_ohm); info->is_capacity = !strncmp(buf, "CA", 2) || (!strncmp(buf, " ", 2) && info->is_farad); info->is_temperature = !strncmp(buf, "TE", 2); info->is_diode = !strncmp(buf, "DI", 2) || (!strncmp(buf, " ", 2) && info->is_volt && info->is_milli); info->is_frequency = !strncmp(buf, "FR", 2) || (!strncmp(buf, " ", 2) && info->is_hertz); info->is_gain = !strncmp(buf, "DB", 2); info->is_hfe = !strncmp(buf, "HF", 2) || (!strncmp(buf, " ", 2) && !info->is_volt && !info->is_ohm && !info->is_logic && !info->is_farad && !info->is_hertz); /* * Note: * - Protocol doesn't distinguish "resistance" from "beep" mode. * - "DB" shows the logarithmic ratio of input voltage to a * pre-stored (user-changeable) value in the DMM. */ /* Byte 13: Always '\r' (carriage return, 0x0d, 13) */ } static void handle_flags(struct sr_datafeed_analog *analog, float *floatval, const struct metex14_info *info) { /* Factors */ if (info->is_pico) *floatval /= 1000000000000ULL; if (info->is_nano) *floatval /= 1000000000; if (info->is_micro) *floatval /= 1000000; if (info->is_milli) *floatval /= 1000; if (info->is_kilo) *floatval *= 1000; if (info->is_mega) *floatval *= 1000000; /* Measurement modes */ if (info->is_volt) { analog->mq = SR_MQ_VOLTAGE; analog->unit = SR_UNIT_VOLT; } if (info->is_ampere) { analog->mq = SR_MQ_CURRENT; analog->unit = SR_UNIT_AMPERE; } if (info->is_ohm) { analog->mq = SR_MQ_RESISTANCE; analog->unit = SR_UNIT_OHM; } if (info->is_hertz) { analog->mq = SR_MQ_FREQUENCY; analog->unit = SR_UNIT_HERTZ; } if (info->is_farad) { analog->mq = SR_MQ_CAPACITANCE; analog->unit = SR_UNIT_FARAD; } if (info->is_celsius) { analog->mq = SR_MQ_TEMPERATURE; analog->unit = SR_UNIT_CELSIUS; } if (info->is_diode) { analog->mq = SR_MQ_VOLTAGE; analog->unit = SR_UNIT_VOLT; } if (info->is_gain) { analog->mq = SR_MQ_GAIN; analog->unit = SR_UNIT_DECIBEL_VOLT; } if (info->is_hfe) { analog->mq = SR_MQ_GAIN; analog->unit = SR_UNIT_UNITLESS; } if (info->is_logic) { analog->mq = SR_MQ_GAIN; analog->unit = SR_UNIT_UNITLESS; } /* Measurement related flags */ if (info->is_ac) analog->mqflags |= SR_MQFLAG_AC; if (info->is_dc) analog->mqflags |= SR_MQFLAG_DC; if (info->is_diode) analog->mqflags |= SR_MQFLAG_DIODE; } static gboolean flags_valid(const struct metex14_info *info) { int count; /* Does the packet have more than one multiplier? */ count = 0; count += (info->is_pico) ? 1 : 0; count += (info->is_nano) ? 1 : 0; count += (info->is_micro) ? 1 : 0; count += (info->is_milli) ? 1 : 0; count += (info->is_kilo) ? 1 : 0; count += (info->is_mega) ? 1 : 0; if (count > 1) { sr_dbg("More than one multiplier detected in packet."); return FALSE; } /* Does the packet "measure" more than one type of value? */ count = 0; count += (info->is_ac) ? 1 : 0; count += (info->is_dc) ? 1 : 0; count += (info->is_resistance) ? 1 : 0; count += (info->is_capacity) ? 1 : 0; count += (info->is_temperature) ? 1 : 0; count += (info->is_diode) ? 1 : 0; count += (info->is_frequency) ? 1 : 0; if (count > 1) { sr_dbg("More than one measurement type detected in packet."); return FALSE; } /* Both AC and DC set? */ if (info->is_ac && info->is_dc) { sr_dbg("Both AC and DC flags detected in packet."); return FALSE; } return TRUE; } #ifdef HAVE_LIBSERIALPORT SR_PRIV int sr_metex14_packet_request(struct sr_serial_dev_inst *serial) { const uint8_t wbuf = 'D'; sr_spew("Requesting DMM packet."); return (serial_write(serial, &wbuf, 1) == 1) ? SR_OK : SR_ERR; } #endif SR_PRIV gboolean sr_metex14_packet_valid(const uint8_t *buf) { struct metex14_info info; memset(&info, 0x00, sizeof(struct metex14_info)); parse_flags((const char *)buf, &info); if (!flags_valid(&info)) return FALSE; if (buf[13] != '\r') return FALSE; return TRUE; } /** * Parse a protocol packet. * * @param buf Buffer containing the protocol packet. Must not be NULL. * @param floatval Pointer to a float variable. That variable will be modified * in-place depending on the protocol packet. Must not be NULL. * @param analog Pointer to a struct sr_datafeed_analog. The struct will be * filled with data according to the protocol packet. * Must not be NULL. * @param info Pointer to a struct metex14_info. The struct will be filled * with data according to the protocol packet. Must not be NULL. * * @return SR_OK upon success, SR_ERR upon failure. Upon errors, the * 'analog' variable contents are undefined and should not be used. */ SR_PRIV int sr_metex14_parse(const uint8_t *buf, float *floatval, struct sr_datafeed_analog *analog, void *info) { int ret; struct metex14_info *info_local; info_local = (struct metex14_info *)info; /* Don't print byte 13. That one contains the carriage return. */ sr_dbg("DMM packet: \"%.13s\"", buf); memset(info_local, 0x00, sizeof(struct metex14_info)); if ((ret = parse_value(buf, info_local, floatval)) != SR_OK) { sr_dbg("Error parsing value: %d.", ret); return ret; } parse_flags((const char *)buf, info_local); handle_flags(analog, floatval, info_local); return SR_OK; }