devc->current_job++;
if (!job_current(devc)->send)
devc->current_job = 0;
- } while(job_in_interval(devc) && devc->current_job != current_job);
+ } while (job_in_interval(devc) && devc->current_job != current_job);
return job_current(devc);
}
}
if (sr_sw_limits_check(&devc->limits) || stop)
- sdi->driver->dev_acquisition_stop(sdi);
+ sr_dev_acquisition_stop(sdi);
else
dispatch(sdi);
return JOB_STAT;
}
+static int recv_stat_u124xc(const struct sr_dev_inst *sdi, GMatchInfo *match)
+{
+ struct dev_context *devc;
+ char *s;
+
+ devc = sdi->priv;
+ s = g_match_info_fetch(match, 1);
+ sr_spew("STAT response '%s'.", s);
+
+ /* Max, Min or Avg mode -- no way to tell which, so we'll
+ * set both flags to denote it's not a normal measurement. */
+ if (s[0] == '1')
+ devc->cur_mqflags[0] |= SR_MQFLAG_MAX | SR_MQFLAG_MIN | SR_MQFLAG_AVG;
+ else
+ devc->cur_mqflags[0] &= ~(SR_MQFLAG_MAX | SR_MQFLAG_MIN | SR_MQFLAG_AVG);
+
+ /* Null function. */
+ if (s[1] == '1')
+ devc->cur_mqflags[0] |= SR_MQFLAG_RELATIVE;
+ else
+ devc->cur_mqflags[0] &= ~SR_MQFLAG_RELATIVE;
+
+ /* Triggered or auto hold modes. */
+ if (s[7] == '1' || s[11] == '1')
+ devc->cur_mqflags[0] |= SR_MQFLAG_HOLD;
+ else
+ devc->cur_mqflags[0] &= ~SR_MQFLAG_HOLD;
+
+ g_free(s);
+
+ return JOB_STAT;
+}
+
static int recv_stat_u125x(const struct sr_dev_inst *sdi, GMatchInfo *match)
{
struct dev_context *devc;
} else if (!strcmp(mstr, "DIOD")) {
devc->cur_mq[i] = SR_MQ_VOLTAGE;
devc->cur_unit[i] = SR_UNIT_VOLT;
- devc->cur_mqflags[i] = SR_MQFLAG_DIODE;
+ devc->cur_mqflags[i] = SR_MQFLAG_DIODE | SR_MQFLAG_DC;
devc->cur_exponent[i] = 0;
devc->cur_digits[i] = 3;
} else if (!strcmp(mstr, "CAP")) {
} else if (!strcmp(mstr, "DC")) {
devc->cur_mqflags[i] |= SR_MQFLAG_DC;
} else {
- sr_dbg("Unknown first argument '%s'.", mstr);
+ sr_dbg("Unknown first argument '%s'.", mstr);
}
g_free(mstr);
} else
devc->cur_mqflags[i] |= SR_MQFLAG_AC | SR_MQFLAG_RMS;
} else if (!strncmp(mstr + 5, "DC", 2)) {
devc->cur_mqflags[i] |= SR_MQFLAG_DC;
+ } else if (!strncmp(mstr + 5, "HRAT", 4)) {
+ devc->cur_mq[i] = SR_MQ_HARMONIC_RATIO;
+ devc->cur_unit[i] = SR_UNIT_PERCENTAGE;
+ devc->cur_digits[i] = 2;
+ devc->cur_encoding[i] = 3;
}
} else
devc->cur_mqflags[i] |= SR_MQFLAG_DC;
} else if (!strcmp(mstr, "DIOD")) {
devc->cur_mq[i] = SR_MQ_VOLTAGE;
devc->cur_unit[i] = SR_UNIT_VOLT;
- devc->cur_mqflags[i] = SR_MQFLAG_DIODE;
+ devc->cur_mqflags[i] = SR_MQFLAG_DIODE | SR_MQFLAG_DC;
devc->cur_exponent[i] = 0;
- devc->cur_digits[i] = 4;
- devc->cur_encoding[i] = 5;
+ if (devc->profile->model == KEYSIGHT_U1281 ||
+ devc->profile->model == KEYSIGHT_U1282) {
+ devc->cur_digits[i] = 4;
+ devc->cur_encoding[i] = 5;
+ } else {
+ devc->cur_digits[i] = 3;
+ devc->cur_encoding[i] = 4;
+ }
} else if (!strncmp(mstr, "T1", 2) || !strncmp(mstr, "T2", 2) ||
!strncmp(mstr, "TEMP", 4)) {
devc->cur_mq[i] = SR_MQ_TEMPERATURE;
* an error in this mode, so don't even call it.
*/
devc->mode_squarewave = 1;
+ } else if (!strcmp(mstr, "NCV")) {
+ devc->cur_mq[i] = SR_MQ_VOLTAGE;
+ devc->cur_unit[i] = SR_UNIT_VOLT;
+ devc->cur_mqflags[i] = SR_MQFLAG_AC;
+ if (devc->profile->model == KEYSIGHT_U1281 ||
+ devc->profile->model == KEYSIGHT_U1282) {
+ devc->cur_exponent[i] = -3;
+ devc->cur_digits[i] = -1;
+ devc->cur_encoding[i] = 0;
+ } else {
+ devc->cur_exponent[i] = 0;
+ devc->cur_digits[i] = 2;
+ devc->cur_encoding[i] = 3;
+ }
} else {
sr_dbg("Unknown first argument '%s'.", mstr);
}
source[devc->data_source - 1], devc->cur_sample);
}
-static int recv_log_u128x(const struct sr_dev_inst *sdi, GMatchInfo *match)
+static int recv_log(const struct sr_dev_inst *sdi, GMatchInfo *match,
+ const int mqs[], const int units[], const int exponents[],
+ unsigned int num_functions)
{
- static const int mqs[] = { SR_MQ_VOLTAGE, SR_MQ_VOLTAGE, SR_MQ_CURRENT, SR_MQ_CURRENT, SR_MQ_RESISTANCE, SR_MQ_VOLTAGE, SR_MQ_TEMPERATURE, SR_MQ_CAPACITANCE, SR_MQ_FREQUENCY, SR_MQ_DUTY_CYCLE, SR_MQ_PULSE_WIDTH, SR_MQ_VOLTAGE, SR_MQ_CURRENT, SR_MQ_CONDUCTANCE };
- static const int units[] = { SR_UNIT_VOLT, SR_UNIT_VOLT, SR_UNIT_AMPERE, SR_UNIT_AMPERE, SR_UNIT_OHM, SR_UNIT_VOLT, SR_UNIT_CELSIUS, SR_UNIT_FARAD, SR_UNIT_HERTZ, SR_UNIT_PERCENTAGE, SR_UNIT_SECOND, SR_UNIT_DECIBEL_MW, SR_UNIT_PERCENTAGE, SR_UNIT_SIEMENS };
- static const int exponents[] = { -6, -4, -9, -4, -3, -4, -1, -12, -3, -3, -6, -3, -2, -11 };
struct dev_context *devc;
struct sr_datafeed_packet packet;
struct sr_datafeed_analog analog;
devc = sdi->priv;
mstr = g_match_info_fetch(match, 2);
- if (sr_atoi(mstr, (int*)&function) != SR_OK || function >= ARRAY_SIZE(mqs)) {
+ if (sr_atoi(mstr, (int*)&function) != SR_OK || function >= num_functions) {
g_free(mstr);
sr_dbg("Invalid function.");
return SR_ERR;
if (mstr[12] & 1) mqflags |= SR_MQFLAG_AVG;
if (mstr[12] & 2) mqflags |= SR_MQFLAG_MIN;
if (mstr[12] & 4) mqflags |= SR_MQFLAG_MAX;
- if (function == 5) mqflags |= SR_MQFLAG_DIODE;
+ if (function == 5) mqflags |= SR_MQFLAG_DIODE | SR_MQFLAG_DC;
g_free(mstr);
mq = mqs[function];
unit = SR_UNIT_DECIBEL_VOLT;
if (unit == SR_UNIT_CELSIUS) {
unit = SR_UNIT_FAHRENHEIT;
- exponent--;
+ if (devc->profile->model == KEYSIGHT_U1281 ||
+ devc->profile->model == KEYSIGHT_U1282)
+ exponent--;
}
}
return JOB_LOG;
}
+static int recv_log_u124xc(const struct sr_dev_inst *sdi, GMatchInfo *match)
+{
+ static const int mqs[] = { SR_MQ_VOLTAGE, SR_MQ_VOLTAGE, SR_MQ_CURRENT, SR_MQ_CURRENT, SR_MQ_RESISTANCE, SR_MQ_VOLTAGE, SR_MQ_TEMPERATURE, SR_MQ_CAPACITANCE, SR_MQ_FREQUENCY, SR_MQ_HARMONIC_RATIO, SR_MQ_CURRENT };
+ static const int units[] = { SR_UNIT_VOLT, SR_UNIT_VOLT, SR_UNIT_AMPERE, SR_UNIT_AMPERE, SR_UNIT_OHM, SR_UNIT_VOLT, SR_UNIT_CELSIUS, SR_UNIT_FARAD, SR_UNIT_HERTZ, SR_UNIT_PERCENTAGE, SR_UNIT_PERCENTAGE };
+ static const int exponents[] = { -5, -4, -7, -3, -2, -3, -1, -10, -2, -2, -2 };
+
+ return recv_log(sdi, match, mqs, units, exponents, ARRAY_SIZE(mqs));
+}
+
+static int recv_log_u128x(const struct sr_dev_inst *sdi, GMatchInfo *match)
+{
+ static const int mqs[] = { SR_MQ_VOLTAGE, SR_MQ_VOLTAGE, SR_MQ_CURRENT, SR_MQ_CURRENT, SR_MQ_RESISTANCE, SR_MQ_VOLTAGE, SR_MQ_TEMPERATURE, SR_MQ_CAPACITANCE, SR_MQ_FREQUENCY, SR_MQ_DUTY_CYCLE, SR_MQ_PULSE_WIDTH, SR_MQ_VOLTAGE, SR_MQ_CURRENT, SR_MQ_CONDUCTANCE };
+ static const int units[] = { SR_UNIT_VOLT, SR_UNIT_VOLT, SR_UNIT_AMPERE, SR_UNIT_AMPERE, SR_UNIT_OHM, SR_UNIT_VOLT, SR_UNIT_CELSIUS, SR_UNIT_FARAD, SR_UNIT_HERTZ, SR_UNIT_PERCENTAGE, SR_UNIT_SECOND, SR_UNIT_DECIBEL_MW, SR_UNIT_PERCENTAGE, SR_UNIT_SIEMENS };
+ static const int exponents[] = { -6, -4, -9, -4, -3, -4, -1, -12, -3, -3, -6, -3, -2, -11 };
+
+ return recv_log(sdi, match, mqs, units, exponents, ARRAY_SIZE(mqs));
+}
+
/* This comes in whenever the rotary switch is changed to a new position.
* We could use it to determine the major measurement mode, but we already
* have the output of CONF? for that, which is more detailed. However
ALL_ZERO
};
+SR_PRIV const struct agdmm_recv agdmm_recvs_u124xc[] = {
+ { "^\"(\\d\\d.{18}\\d)\"$", recv_stat_u124xc },
+ { "^\\*([0-9])$", recv_switch },
+ { "^([-+][0-9]\\.[0-9]{8}E([-+][0-9]{2}))$", recv_fetc },
+ { "^\"(VOLT|VOLT:AC|VOLT:HRAT|CURR|CURR:AC|RES|CONT|CAP|FREQ|FREQ:AC) ([-+][0-9\\.E\\-+]+),([-+][0-9]\\.[0-9]{8}E([-+][0-9]{2}))\"$", recv_conf_u124x_5x },
+ { "^\"(CPER:[40]-20mA) ([-+][0-9\\.E\\-+]+),([-+][0-9]\\.[0-9]{8}E([-+][0-9]{2}))\"$", recv_conf_u124x_5x },
+ { "^\"(TEMP:[A-Z]+) ([A-Z]+)\"$", recv_conf_u124x_5x },
+ { "^\"(NCV) (HI|LO)\"$", recv_conf_u124x_5x },
+ { "^\"(DIOD|TEMP)\"$", recv_conf_u124x_5x },
+ { "^\"((\\d{2})(\\d{5})\\d{7})\"$", recv_log_u124xc },
+ { "^\\*E$", recv_err },
+ ALL_ZERO
+};
+
SR_PRIV const struct agdmm_recv agdmm_recvs_u125x[] = {
{ "^\"(\\d\\d.{18}\\d)\"$", recv_stat_u125x },
{ "^\\*([0-9])$", recv_switch },
{ "^\"(CPER:[40]-20mA) ([-+][0-9\\.E\\-+]+),([-+][0-9]\\.[0-9]{8}E([-+][0-9]{2}))\"$", recv_conf_u124x_5x },
{ "^\"(PULS:PWID|PULS:PWID:[ACD]+) ([-+][0-9\\.E\\-+]+),([-+][0-9]\\.[0-9]{8}E([-+][0-9]{2}))\"$", recv_conf_u124x_5x },
{ "^\"(TEMP:[A-Z]+) ([A-Z]+)\"$", recv_conf_u124x_5x },
+ { "^\"(NCV) (HIGH|LOW)\"$", recv_conf_u124x_5x },
{ "^\"(DIOD|SQU|PULS:PDUT|TEMP)\"$", recv_conf_u124x_5x },
{ "^\"((\\d{2})(\\d{5})\\d{7})\"$", recv_log_u128x },
{ "^\\*E$", recv_err },