X-Git-Url: https://sigrok.org/gitweb/?a=blobdiff_plain;f=hardware%2Ftekpower-dmm%2Fprotocol.c;h=87f83c15b5fb39606117c0010012d9320ad4272d;hb=f18297a5fd88f09a9e1a1330777f6db6dfe8999a;hp=7f501959151b8c8c2f59f0c109623a1cdf561097;hpb=bbabddbd64d07811120230203d453c65ac53ce57;p=libsigrok.git diff --git a/hardware/tekpower-dmm/protocol.c b/hardware/tekpower-dmm/protocol.c index 7f501959..87f83c15 100644 --- a/hardware/tekpower-dmm/protocol.c +++ b/hardware/tekpower-dmm/protocol.c @@ -26,281 +26,43 @@ #include "libsigrok-internal.h" #include "protocol.h" -static gboolean lcd14_is_sync_valid(const struct lcd14_packet *packet) -{ - int i; - uint8_t sync; - - /* Check the syncronization nibbles, and make sure they all match. */ - for (i = 0; i < LCD14_PACKET_SIZE; i++) { - sync = (packet->raw[i] & LCD14_SYNC_MASK) >> 4; - if (sync != (i + 1)) - return FALSE; - } - return TRUE; -} - -static gboolean lcd14_is_selection_good(const struct lcd14_data *data) -{ - int n_postfix = 0, n_type = 0; - - /* Does the packet have more than one multiplier? */ - if (data->flags & LCD14_NANO) - n_postfix++; - if (data->flags & LCD14_MICRO) - n_postfix++; - if (data->flags & LCD14_MILLI) - n_postfix++; - if (data->flags & LCD14_KILO) - n_postfix++; - if (data->flags & LCD14_MEGA) - n_postfix++; - - if (n_postfix > 1) - return FALSE; - - /* Does the packet "measure" more than one type of value? */ - if (data->flags & LCD14_HZ) - n_type++; - if (data->flags & LCD14_OHM) - n_type++; - if (data->flags & LCD14_FARAD) - n_type++; - if (data->flags & LCD14_AMP) - n_type++; - if (data->flags & LCD14_VOLT) - n_type++; - if (data->flags & LCD14_DUTY) - n_type++; - if (data->flags & LCD14_CELSIUS) - n_type++; - /* Do not test for hFE. hFE is not implemented and always '1'. */ - if (n_type > 1) - return FALSE; - - /* Both AC and DC? */ - if ((data->flags & LCD14_AC) && (data->flags & LCD14_DC)) - return FALSE; - - /* OK, no duplicates. */ - return TRUE; -} - -/* We "cook" a raw lcd14_pcaket into a more pallatable form, lcd14_data. */ -static void lcd14_cook_raw(const struct lcd14_packet *packet, - struct lcd14_data *data) -{ - int i, j; - - /* Get the digits out. */ - for (i = 0; i < 4; i++) { - j = (i << 1) + 1; - data->digit[i] = ((packet->raw[j] & ~LCD14_SYNC_MASK) << 4) | - ((packet->raw[j + 1] & ~LCD14_SYNC_MASK)); - } - - /* Now extract the flags. */ - data->flags = ((packet->raw[0] & ~LCD14_SYNC_MASK) << 20) | - ((packet->raw[9] & ~LCD14_SYNC_MASK) << 16) | - ((packet->raw[10] & ~LCD14_SYNC_MASK) << 12) | - ((packet->raw[11] & ~LCD14_SYNC_MASK) << 8) | - ((packet->raw[12] & ~LCD14_SYNC_MASK) << 4) | - ((packet->raw[13] & ~LCD14_SYNC_MASK)); -} - -/* - * Since the DMM does not identify itself in any way shape, or form, we really - * don't know for sure who is sending the data. We must use every possible - * check to filter out bad packets, especially since the detection mechanism - * depends on how well we can filter out bad packets packets. - */ -SR_PRIV gboolean lcd14_is_packet_valid(const struct lcd14_packet *packet, - struct lcd14_data *data) -{ - struct lcd14_data placeholder; - - /* Callers not interested in the data, pass NULL. */ - if (data == NULL) - data = &placeholder; - - if (!lcd14_is_sync_valid(packet)) - return FALSE; - - lcd14_cook_raw(packet, data); - - if (!lcd14_is_selection_good(data)) - return FALSE; - - /* If we made it here, this looks to be a valid packet. */ - return TRUE; -} - -static uint8_t lcd14_to_digit(uint8_t raw_digit) -{ - /* Take out the decimal point, so we can use a simple switch(). */ - raw_digit &= ~LCD14_DP_MASK; - - switch (raw_digit) { - case 0x00: - case LCD14_LCD_0: - return 0; - case LCD14_LCD_1: - return 1; - case LCD14_LCD_2: - return 2; - case LCD14_LCD_3: - return 3; - case LCD14_LCD_4: - return 4; - case LCD14_LCD_5: - return 5; - case LCD14_LCD_6: - return 6; - case LCD14_LCD_7: - return 7; - case LCD14_LCD_8: - return 8; - case LCD14_LCD_9: - return 9; - default: - return LCD14_LCD_INVALID; - } -} - -/* Get a raw floating point value from the data. */ -static double lcdraw_to_double(struct lcd14_data *data) -{ - double rawval; - double multiplier = 1; - uint8_t digit, raw_digit; - gboolean dp_reached = FALSE; - int i; - - /* We have 4 digits, and we start from the most significant. */ - for (i = 0; i < 4; i++) { - raw_digit = data->digit[i]; - digit = lcd14_to_digit(raw_digit); - if (digit == LCD14_LCD_INVALID) { - rawval = NAN; - break; - } - - /* - * Digit 1 does not have a decimal point. Instead, the decimal - * point is used to indicate MAX, so we must avoid testing it. - */ - if ((i > 0) && (raw_digit & LCD14_DP_MASK)) - dp_reached = TRUE; - if (dp_reached) - multiplier /= 10; - rawval = rawval * 10 + digit; - } - rawval *= multiplier; - if (data->digit[0] & LCD14_D0_NEG) - rawval *= -1; - - /* See if we need to multiply our raw value by anything. */ - if (data->flags & LCD14_NANO) - rawval *= 1E-9; - else if (data->flags & LCD14_MICRO) - rawval *= 1E-6; - else if (data->flags & LCD14_MILLI) - rawval *= 1E-3; - else if (data->flags & LCD14_KILO) - rawval *= 1E3; - else if (data->flags & LCD14_MEGA) - rawval *= 1E6; - - return rawval; -} +/* User-defined FS9721_LP3 flag 'c2c1_10' means temperature on this DMM. */ +#define is_temperature info.is_c2c1_10 /* Now see what the value means, and pass that on. */ -static void lcd14_handle_packet(struct lcd14_data *data, - struct dev_context *devc) +static void fs9721_serial_handle_packet(const uint8_t *buf, + struct dev_context *devc) { - double rawval; + float floatval; struct sr_datafeed_packet packet; struct sr_datafeed_analog *analog; + struct fs9721_info info; if (!(analog = g_try_malloc0(sizeof(struct sr_datafeed_analog)))) { - sr_err("Failed to malloc packet."); + sr_err("Analog packet malloc failed."); return; } if (!(analog->data = g_try_malloc(sizeof(float)))) { - sr_err("Failed to malloc data."); + sr_err("Analog value malloc failed."); g_free(analog); return; } - rawval = lcdraw_to_double(data); - analog->num_samples = 1; - *analog->data = (float)rawval; - analog->mq = -1; - /* What does the data mean? */ - if (data->flags & LCD14_VOLT) { - analog->mq = SR_MQ_VOLTAGE; - analog->unit = SR_UNIT_VOLT; - if (data->flags & LCD14_AC) - analog->mqflags |= SR_MQFLAG_AC; - else - analog->mqflags |= SR_MQFLAG_DC; - } else if (data->flags & LCD14_AMP) { - analog->mq = SR_MQ_CURRENT; - analog->unit = SR_UNIT_AMPERE; - if (data->flags & LCD14_AC) - analog->mqflags |= SR_MQFLAG_AC; - else - analog->mqflags |= SR_MQFLAG_DC; - } else if (data->flags & LCD14_OHM) { - if (data->flags & LCD14_BEEP) - analog->mq = SR_MQ_CONTINUITY; - else - analog->mq = SR_MQ_RESISTANCE; - if (!isnan(rawval)) - analog->unit = SR_UNIT_OHM; - else { - analog->unit = SR_UNIT_BOOLEAN; - *analog->data = FALSE; - } - } else if (data->flags & LCD14_FARAD) { - analog->mq = SR_MQ_CAPACITANCE; - analog->unit = SR_UNIT_FARAD; - } else if (data->flags & LCD14_CELSIUS) { + sr_fs9721_parse(buf, &floatval, analog, &info); + *analog->data = floatval; + + if (is_temperature) { analog->mq = SR_MQ_TEMPERATURE; /* No Kelvin or Fahrenheit from the device, just Celsius. */ analog->unit = SR_UNIT_CELSIUS; - } else if (data->flags & LCD14_HZ) { - analog->mq = SR_MQ_FREQUENCY; - analog->unit = SR_UNIT_HERTZ; - } else if (data->flags & LCD14_DUTY) { - analog->mq = SR_MQ_DUTY_CYCLE; - analog->unit = SR_UNIT_PERCENTAGE; - } else if (data->flags & LCD14_HFE) { - analog->mq = SR_MQ_GAIN; - analog->unit = SR_UNIT_UNITLESS; - } else if (data->flags & LCD14_DIODE) { - analog->mq = SR_MQ_VOLTAGE; - analog->unit = SR_UNIT_VOLT; - analog->mqflags |= SR_MQFLAG_DIODE | SR_MQFLAG_DC; - } else { - sr_warn("Unable to identify measurement mode."); } - /* What other flags are associated with the data? */ - if (data->flags & LCD14_HOLD) - analog->mqflags |= SR_MQFLAG_HOLD; - if (data->flags & LCD14_AUTO) - analog->mqflags |= SR_MQFLAG_AUTORANGE; - if (data->flags & LCD14_REL) - analog->mqflags |= SR_MQFLAG_RELATIVE; - if (analog->mq != -1) { /* Got a measurement. */ - sr_spew("Measurement value is %f.", rawval); packet.type = SR_DF_ANALOG; packet.payload = analog; sr_session_send(devc->cb_data, &packet); @@ -314,8 +76,6 @@ static void lcd14_handle_packet(struct lcd14_data *data, static void handle_new_data(struct dev_context *devc, int fd) { int len, i, offset = 0; - struct lcd14_packet *packet; - struct lcd14_data data; /* Try to get as much data as the buffer can hold. */ len = DMM_BUFSIZE - devc->buflen; @@ -327,11 +87,10 @@ static void handle_new_data(struct dev_context *devc, int fd) devc->buflen += len; /* Now look for packets in that data. */ - while ((devc->buflen - offset) >= LCD14_PACKET_SIZE) { - packet = (void *)(devc->buf + offset); - if (lcd14_is_packet_valid(packet, &data)) { - lcd14_handle_packet(&data, devc); - offset += LCD14_PACKET_SIZE; + while ((devc->buflen - offset) >= FS9721_PACKET_SIZE) { + if (sr_fs9721_packet_valid(devc->buf + offset)) { + fs9721_serial_handle_packet(devc->buf + offset, devc); + offset += FS9721_PACKET_SIZE; } else { offset++; }