libsigrok/hardware/common/dmm/fs9922.c

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/*
2013-04-23 20:24:30 +00:00
* This file is part of the libsigrok project.
*
* Copyright (C) 2012 Uwe Hermann <uwe@hermann-uwe.de>
*
* 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
*/
/*
* Fortune Semiconductor FS9922-DMM3/FS9922-DMM4 protocol parser.
*/
#include <string.h>
#include <ctype.h>
#include <math.h>
#include <glib.h>
#include "libsigrok.h"
#include "libsigrok-internal.h"
/* Message logging helpers with driver-specific prefix string. */
#define DRIVER_LOG_DOMAIN "fs9922: "
#define sr_log(l, s, args...) sr_log(l, DRIVER_LOG_DOMAIN s, ## args)
#define sr_spew(s, args...) sr_spew(DRIVER_LOG_DOMAIN s, ## args)
#define sr_dbg(s, args...) sr_dbg(DRIVER_LOG_DOMAIN s, ## args)
#define sr_info(s, args...) sr_info(DRIVER_LOG_DOMAIN s, ## args)
#define sr_warn(s, args...) sr_warn(DRIVER_LOG_DOMAIN s, ## args)
#define sr_err(s, args...) sr_err(DRIVER_LOG_DOMAIN s, ## args)
static gboolean flags_valid(const struct fs9922_info *info)
{
int count;
/* Does the packet have more than one multiplier? */
count = 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_err("More than one multiplier detected in packet.");
return FALSE;
}
/* Does the packet "measure" more than one type of value? */
count = 0;
count += (info->is_diode) ? 1 : 0;
count += (info->is_percent) ? 1 : 0;
count += (info->is_volt) ? 1 : 0;
count += (info->is_ampere) ? 1 : 0;
count += (info->is_ohm) ? 1 : 0;
count += (info->is_hfe) ? 1 : 0;
count += (info->is_hertz) ? 1 : 0;
count += (info->is_farad) ? 1 : 0;
count += (info->is_celsius) ? 1 : 0;
count += (info->is_fahrenheit) ? 1 : 0;
if (count > 1) {
sr_err("More than one measurement type detected in packet.");
return FALSE;
}
/* Both AC and DC set? */
if (info->is_ac && info->is_dc) {
sr_err("Both AC and DC flags detected in packet.");
return FALSE;
}
/* Both Celsius and Fahrenheit set? */
if (info->is_celsius && info->is_fahrenheit) {
sr_err("Both Celsius and Fahrenheit flags detected in packet.");
return FALSE;
}
return TRUE;
}
static int parse_value(const uint8_t *buf, float *result)
{
int sign, intval;
float floatval;
/* Byte 0: Sign ('+' or '-') */
if (buf[0] == '+') {
sign = 1;
} else if (buf[0] == '-') {
sign = -1;
} else {
sr_err("Invalid sign byte: 0x%02x.", buf[0]);
return SR_ERR;
}
/*
* Bytes 1-4: Value (4 decimal digits)
*
* Over limit: "0.L" on the display, "?0:?" as protocol "digits".
*/
if (buf[1] == '?' && buf[2] == '0' && buf[3] == ':' && buf[4] == '?') {
sr_spew("Over limit.");
*result = INFINITY;
return SR_OK;
} else if (!isdigit(buf[1]) || !isdigit(buf[2]) ||
!isdigit(buf[3]) || !isdigit(buf[4])) {
sr_err("Value contained invalid digits: %02x %02x %02x %02x ("
"%c %c %c %c).", buf[1], buf[2], buf[3], buf[4]);
return SR_ERR;
}
intval = 0;
intval += (buf[1] - '0') * 1000;
intval += (buf[2] - '0') * 100;
intval += (buf[3] - '0') * 10;
intval += (buf[4] - '0') * 1;
floatval = (float)intval;
/* Byte 5: Always ' ' (space, 0x20) */
/*
* Byte 6: Decimal point position ('0', '1', '2', or '4')
*
* Note: The Fortune Semiconductor FS9922-DMM3/4 datasheets both have
* an error/typo here. They claim that the values '0'/'1'/'2'/'3' are
* used, but '0'/'1'/'2'/'4' is actually correct.
*/
if (buf[6] != '0' && buf[6] != '1' && buf[6] != '2' && buf[6] != '4') {
sr_err("Invalid decimal point value: 0x%02x.", buf[6]);
return SR_ERR;
}
if (buf[6] == '0')
floatval /= 1;
else if (buf[6] == '1')
floatval /= 1000;
else if (buf[6] == '2')
floatval /= 100;
else if (buf[6] == '4')
floatval /= 10;
/* Apply sign. */
floatval *= sign;
sr_spew("The display value is %f.", floatval);
*result = floatval;
return SR_OK;
}
static void parse_flags(const uint8_t *buf, struct fs9922_info *info)
{
/* Z1/Z2/Z3/Z4 are bits for user-defined LCD symbols (on/off). */
/* Byte 7 */
/* Bit 7: Always 0 */
/* Bit 6: Always 0 */
info->is_auto = (buf[7] & (1 << 5)) != 0;
info->is_dc = (buf[7] & (1 << 4)) != 0;
info->is_ac = (buf[7] & (1 << 3)) != 0;
info->is_rel = (buf[7] & (1 << 2)) != 0;
info->is_hold = (buf[7] & (1 << 1)) != 0;
info->is_bpn = (buf[7] & (1 << 0)) != 0; /* Bargraph shown */
/* Byte 8 */
info->is_z1 = (buf[8] & (1 << 7)) != 0; /* User symbol 1 */
info->is_z2 = (buf[8] & (1 << 6)) != 0; /* User symbol 2 */
info->is_max = (buf[8] & (1 << 5)) != 0;
info->is_min = (buf[8] & (1 << 4)) != 0;
info->is_apo = (buf[8] & (1 << 3)) != 0; /* Auto-poweroff on */
info->is_bat = (buf[8] & (1 << 2)) != 0; /* Battery low */
info->is_nano = (buf[8] & (1 << 1)) != 0;
info->is_z3 = (buf[8] & (1 << 0)) != 0; /* User symbol 3 */
/* Byte 9 */
info->is_micro = (buf[9] & (1 << 7)) != 0;
info->is_milli = (buf[9] & (1 << 6)) != 0;
info->is_kilo = (buf[9] & (1 << 5)) != 0;
info->is_mega = (buf[9] & (1 << 4)) != 0;
info->is_beep = (buf[9] & (1 << 3)) != 0;
info->is_diode = (buf[9] & (1 << 2)) != 0;
info->is_percent = (buf[9] & (1 << 1)) != 0;
info->is_z4 = (buf[8] & (1 << 0)) != 0; /* User symbol 4 */
/* Byte 10 */
info->is_volt = (buf[10] & (1 << 7)) != 0;
info->is_ampere = (buf[10] & (1 << 6)) != 0;
info->is_ohm = (buf[10] & (1 << 5)) != 0;
info->is_hfe = (buf[10] & (1 << 4)) != 0;
info->is_hertz = (buf[10] & (1 << 3)) != 0;
info->is_farad = (buf[10] & (1 << 2)) != 0;
info->is_celsius = (buf[10] & (1 << 1)) != 0; /* Only FS9922-DMM4 */
info->is_fahrenheit = (buf[10] & (1 << 0)) != 0; /* Only FS9922-DMM4 */
/*
* Byte 11: Bar graph
*
* Bit 7 contains the sign of the bargraph number (if the bit is set,
* the number is negative), bits 6..0 contain the actual number.
* Valid range: 0-40 (FS9922-DMM3), 0-60 (FS9922-DMM4).
*
* Upon "over limit" the bargraph value is 1 count above the highest
* valid number (i.e. 41 or 61, depending on chip).
*/
if (info->is_bpn) {
info->bargraph_sign = ((buf[11] & (1 << 7)) != 0) ? -1 : 1;
info->bargraph_value = (buf[11] & 0x7f);
info->bargraph_value *= info->bargraph_sign;
}
/* Byte 12: Always '\r' (carriage return, 0x0d, 13) */
/* Byte 13: Always '\n' (newline, 0x0a, 10) */
}
static void handle_flags(struct sr_datafeed_analog *analog, float *floatval,
const struct fs9922_info *info)
{
/* Factors */
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_hfe) {
analog->mq = SR_MQ_GAIN;
analog->unit = SR_UNIT_UNITLESS;
}
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_fahrenheit) {
analog->mq = SR_MQ_TEMPERATURE;
analog->unit = SR_UNIT_FAHRENHEIT;
}
if (info->is_beep) {
analog->mq = SR_MQ_CONTINUITY;
analog->unit = SR_UNIT_BOOLEAN;
*floatval = (*floatval < 0.0) ? 0.0 : 1.0;
}
if (info->is_diode) {
analog->mq = SR_MQ_VOLTAGE;
analog->unit = SR_UNIT_VOLT;
}
if (info->is_percent) {
analog->mq = SR_MQ_DUTY_CYCLE;
analog->unit = SR_UNIT_PERCENTAGE;
}
/* Measurement related flags */
if (info->is_ac)
analog->mqflags |= SR_MQFLAG_AC;
if (info->is_dc)
analog->mqflags |= SR_MQFLAG_DC;
if (info->is_auto)
analog->mqflags |= SR_MQFLAG_AUTORANGE;
if (info->is_hold)
analog->mqflags |= SR_MQFLAG_HOLD;
if (info->is_max)
analog->mqflags |= SR_MQFLAG_MAX;
if (info->is_min)
analog->mqflags |= SR_MQFLAG_MIN;
if (info->is_rel)
analog->mqflags |= SR_MQFLAG_RELATIVE;
/* Other flags */
if (info->is_apo)
sr_spew("Automatic power-off function is active.");
if (info->is_bat)
sr_spew("Battery is low.");
if (info->is_z1)
sr_spew("User-defined LCD symbol 1 is active.");
if (info->is_z2)
sr_spew("User-defined LCD symbol 2 is active.");
if (info->is_z3)
sr_spew("User-defined LCD symbol 3 is active.");
if (info->is_z4)
sr_spew("User-defined LCD symbol 4 is active.");
if (info->is_bpn)
sr_spew("The bargraph value is %d.", info->bargraph_value);
else
sr_spew("The bargraph is not active.");
}
SR_PRIV gboolean sr_fs9922_packet_valid(const uint8_t *buf)
{
struct fs9922_info info;
/* Byte 0: Sign (must be '+' or '-') */
if (buf[0] != '+' && buf[0] != '-')
return FALSE;
/* Byte 12: Always '\r' (carriage return, 0x0d, 13) */
/* Byte 13: Always '\n' (newline, 0x0a, 10) */
if (buf[12] != '\r' || buf[13] != '\n')
return FALSE;
parse_flags(buf, &info);
return flags_valid(&info);
}
/**
* 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 contain the
* result value upon parsing success. 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 fs9922_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_fs9922_parse(const uint8_t *buf, float *floatval,
struct sr_datafeed_analog *analog, void *info)
{
int ret;
struct fs9922_info *info_local;
info_local = (struct fs9922_info *)info;
if ((ret = parse_value(buf, floatval)) != SR_OK) {
sr_err("Error parsing value: %d.", ret);
return ret;
}
parse_flags(buf, info_local);
handle_flags(analog, floatval, info_local);
return SR_OK;
}