* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
+#include <config.h>
#include <stdlib.h>
#include <stdio.h>
#include <sys/types.h>
#include <dirent.h>
#include <string.h>
#include <glib.h>
-#include "config.h" /* Needed for HAVE_LIBUSB_1_0 and others. */
-#include "libsigrok.h"
+#include <libsigrok/libsigrok.h>
#include "libsigrok-internal.h"
/** @cond PRIVATE */
#define LOG_PREFIX "hwdriver"
/** @endcond */
-extern SR_PRIV struct sr_dev_driver *drivers_list[];
-
/**
* @file
*
* @{
*/
-static struct sr_config_info sr_config_info_data[] = {
+/* Please use the same order/grouping as in enum sr_configkey (libsigrok.h). */
+static struct sr_key_info sr_key_info_config[] = {
+ /* Device classes */
+ {SR_CONF_LOGIC_ANALYZER, SR_T_STRING, NULL, "Logic analyzer", NULL},
+ {SR_CONF_OSCILLOSCOPE, SR_T_STRING, NULL, "Oscilloscope", NULL},
+ {SR_CONF_MULTIMETER, SR_T_STRING, NULL, "Multimeter", NULL},
+ {SR_CONF_DEMO_DEV, SR_T_STRING, NULL, "Demo device", NULL},
+ {SR_CONF_SOUNDLEVELMETER, SR_T_STRING, NULL, "Sound level meter", NULL},
+ {SR_CONF_THERMOMETER, SR_T_STRING, NULL, "Thermometer", NULL},
+ {SR_CONF_HYGROMETER, SR_T_STRING, NULL, "Hygrometer", NULL},
+ {SR_CONF_ENERGYMETER, SR_T_STRING, NULL, "Energy meter", NULL},
+ {SR_CONF_DEMODULATOR, SR_T_STRING, NULL, "Demodulator", NULL},
+ {SR_CONF_POWER_SUPPLY, SR_T_STRING, NULL, "Power supply", NULL},
+ {SR_CONF_LCRMETER, SR_T_STRING, NULL, "LCR meter", NULL},
+ {SR_CONF_ELECTRONIC_LOAD, SR_T_STRING, NULL, "Electronic load", NULL},
+ {SR_CONF_SCALE, SR_T_STRING, NULL, "Scale", NULL},
+ {SR_CONF_SIGNAL_GENERATOR, SR_T_STRING, NULL, "Signal generator", NULL},
+ {SR_CONF_POWERMETER, SR_T_STRING, NULL, "Power meter", NULL},
+
+ /* Driver scan options */
{SR_CONF_CONN, SR_T_STRING, "conn",
"Connection", NULL},
{SR_CONF_SERIALCOMM, SR_T_STRING, "serialcomm",
"Serial communication", NULL},
+ {SR_CONF_MODBUSADDR, SR_T_UINT64, "modbusaddr",
+ "Modbus slave address", NULL},
+
+ /* Device (or channel group) configuration */
{SR_CONF_SAMPLERATE, SR_T_UINT64, "samplerate",
"Sample rate", NULL},
{SR_CONF_CAPTURE_RATIO, SR_T_UINT64, "captureratio",
"Pre-trigger capture ratio", NULL},
{SR_CONF_PATTERN_MODE, SR_T_STRING, "pattern",
"Pattern", NULL},
- {SR_CONF_TRIGGER_MATCH, SR_T_INT32, "triggermatch",
- "Trigger matches", NULL},
- {SR_CONF_EXTERNAL_CLOCK, SR_T_BOOL, "external_clock",
- "External clock mode", NULL},
- {SR_CONF_SWAP, SR_T_BOOL, "swap",
- "Swap channel order", NULL},
{SR_CONF_RLE, SR_T_BOOL, "rle",
- "Run Length Encoding", NULL},
+ "Run length encoding", NULL},
{SR_CONF_TRIGGER_SLOPE, SR_T_STRING, "triggerslope",
"Trigger slope", NULL},
+ {SR_CONF_AVERAGING, SR_T_BOOL, "averaging",
+ "Averaging", NULL},
+ {SR_CONF_AVG_SAMPLES, SR_T_UINT64, "avg_samples",
+ "Number of samples to average over", NULL},
{SR_CONF_TRIGGER_SOURCE, SR_T_STRING, "triggersource",
"Trigger source", NULL},
{SR_CONF_HORIZ_TRIGGERPOS, SR_T_FLOAT, "horiz_triggerpos",
"Buffer size", NULL},
{SR_CONF_TIMEBASE, SR_T_RATIONAL_PERIOD, "timebase",
"Time base", NULL},
- {SR_CONF_FILTER, SR_T_STRING, "filter",
- "Filter targets", NULL},
+ {SR_CONF_FILTER, SR_T_BOOL, "filter",
+ "Filter", NULL},
{SR_CONF_VDIV, SR_T_RATIONAL_VOLT, "vdiv",
"Volts/div", NULL},
{SR_CONF_COUPLING, SR_T_STRING, "coupling",
"Coupling", NULL},
- {SR_CONF_DATALOG, SR_T_BOOL, "datalog",
- "Datalog", NULL},
+ {SR_CONF_TRIGGER_MATCH, SR_T_INT32, "triggermatch",
+ "Trigger matches", NULL},
+ {SR_CONF_SAMPLE_INTERVAL, SR_T_UINT64, "sample_interval",
+ "Sample interval", NULL},
+ {SR_CONF_NUM_HDIV, SR_T_INT32, "num_hdiv",
+ "Number of horizontal divisions", NULL},
+ {SR_CONF_NUM_VDIV, SR_T_INT32, "num_vdiv",
+ "Number of vertical divisions", NULL},
{SR_CONF_SPL_WEIGHT_FREQ, SR_T_STRING, "spl_weight_freq",
"Sound pressure level frequency weighting", NULL},
{SR_CONF_SPL_WEIGHT_TIME, SR_T_STRING, "spl_weight_time",
"Sound pressure level time weighting", NULL},
+ {SR_CONF_SPL_MEASUREMENT_RANGE, SR_T_UINT64_RANGE, "spl_meas_range",
+ "Sound pressure level measurement range", NULL},
{SR_CONF_HOLD_MAX, SR_T_BOOL, "hold_max",
"Hold max", NULL},
{SR_CONF_HOLD_MIN, SR_T_BOOL, "hold_min",
"Hold min", NULL},
- {SR_CONF_SPL_MEASUREMENT_RANGE, SR_T_UINT64_RANGE, "spl_meas_range",
- "Sound pressure level measurement range", NULL},
{SR_CONF_VOLTAGE_THRESHOLD, SR_T_DOUBLE_RANGE, "voltage_threshold",
"Voltage threshold", NULL },
- {SR_CONF_POWER_OFF, SR_T_BOOL, "power_off",
- "Power off", NULL},
- {SR_CONF_DATA_SOURCE, SR_T_STRING, "data_source",
- "Data source", NULL},
+ {SR_CONF_EXTERNAL_CLOCK, SR_T_BOOL, "external_clock",
+ "External clock mode", NULL},
+ {SR_CONF_SWAP, SR_T_BOOL, "swap",
+ "Swap channel order", NULL},
+ {SR_CONF_CENTER_FREQUENCY, SR_T_UINT64, "center_frequency",
+ "Center frequency", NULL},
{SR_CONF_NUM_LOGIC_CHANNELS, SR_T_INT32, "logic_channels",
"Number of logic channels", NULL},
{SR_CONF_NUM_ANALOG_CHANNELS, SR_T_INT32, "analog_channels",
"Number of analog channels", NULL},
- {SR_CONF_OUTPUT_VOLTAGE, SR_T_FLOAT, "output_voltage",
- "Current output voltage", NULL},
- {SR_CONF_OUTPUT_VOLTAGE_MAX, SR_T_FLOAT, "output_voltage_max",
- "Maximum output voltage", NULL},
- {SR_CONF_OUTPUT_CURRENT, SR_T_FLOAT, "output_current",
- "Current output current", NULL},
- {SR_CONF_OUTPUT_CURRENT_MAX, SR_T_FLOAT, "output_current_max",
- "Maximum output current", NULL},
- {SR_CONF_OUTPUT_ENABLED, SR_T_BOOL, "output_enabled",
- "Output enabled", NULL},
- {SR_CONF_OUTPUT_CHANNEL_CONFIG, SR_T_STRING, "output_channel_config",
- "Output channel modes", NULL},
+ {SR_CONF_VOLTAGE, SR_T_FLOAT, "voltage",
+ "Current voltage", NULL},
+ {SR_CONF_VOLTAGE_TARGET, SR_T_FLOAT, "voltage_target",
+ "Voltage target", NULL},
+ {SR_CONF_CURRENT, SR_T_FLOAT, "current",
+ "Current current", NULL},
+ {SR_CONF_CURRENT_LIMIT, SR_T_FLOAT, "current_limit",
+ "Current limit", NULL},
+ {SR_CONF_ENABLED, SR_T_BOOL, "enabled",
+ "Channel enabled", NULL},
+ {SR_CONF_CHANNEL_CONFIG, SR_T_STRING, "channel_config",
+ "Channel modes", NULL},
{SR_CONF_OVER_VOLTAGE_PROTECTION_ENABLED, SR_T_BOOL, "ovp_enabled",
"Over-voltage protection enabled", NULL},
{SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE, SR_T_BOOL, "ovp_active",
"Over-current protection active", NULL},
{SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD, SR_T_FLOAT, "ocp_threshold",
"Over-current protection threshold", NULL},
- {SR_CONF_LIMIT_SAMPLES, SR_T_UINT64, "limit_samples",
- "Sample limit", NULL},
{SR_CONF_CLOCK_EDGE, SR_T_STRING, "clock_edge",
"Clock edge", NULL},
{SR_CONF_AMPLITUDE, SR_T_FLOAT, "amplitude",
"Amplitude", NULL},
+ {SR_CONF_REGULATION, SR_T_STRING, "regulation",
+ "Channel regulation", NULL},
{SR_CONF_OVER_TEMPERATURE_PROTECTION, SR_T_BOOL, "otp",
"Over-temperature protection", NULL},
- {SR_CONF_OUTPUT_REGULATION, SR_T_STRING, "output_regulation",
- "Output channel regulation", NULL},
- {0, 0, NULL, NULL, NULL},
+ {SR_CONF_OUTPUT_FREQUENCY, SR_T_FLOAT, "output_frequency",
+ "Output frequency", NULL},
+ {SR_CONF_OUTPUT_FREQUENCY_TARGET, SR_T_FLOAT, "output_frequency_target",
+ "Output frequency target", NULL},
+ {SR_CONF_MEASURED_QUANTITY, SR_T_MQ, "measured_quantity",
+ "Measured quantity", NULL},
+ {SR_CONF_EQUIV_CIRCUIT_MODEL, SR_T_STRING, "equiv_circuit_model",
+ "Equivalent circuit model", NULL},
+ {SR_CONF_OVER_TEMPERATURE_PROTECTION_ACTIVE, SR_T_BOOL, "otp_active",
+ "Over-temperature protection active", NULL},
+ {SR_CONF_UNDER_VOLTAGE_CONDITION, SR_T_BOOL, "uvc",
+ "Under-voltage condition", NULL},
+ {SR_CONF_UNDER_VOLTAGE_CONDITION_ACTIVE, SR_T_BOOL, "uvc_active",
+ "Under-voltage condition active", NULL},
+ {SR_CONF_UNDER_VOLTAGE_CONDITION_THRESHOLD, SR_T_FLOAT, "uvc_threshold",
+ "Under-voltage condition threshold", NULL},
+ {SR_CONF_TRIGGER_LEVEL, SR_T_FLOAT, "triggerlevel",
+ "Trigger level", NULL},
+ {SR_CONF_EXTERNAL_CLOCK_SOURCE, SR_T_STRING, "external_clock_source",
+ "External clock source", NULL},
+
+ /* Special stuff */
+ {SR_CONF_SESSIONFILE, SR_T_STRING, "sessionfile",
+ "Session file", NULL},
+ {SR_CONF_CAPTUREFILE, SR_T_STRING, "capturefile",
+ "Capture file", NULL},
+ {SR_CONF_CAPTURE_UNITSIZE, SR_T_UINT64, "capture_unitsize",
+ "Capture unitsize", NULL},
+ {SR_CONF_POWER_OFF, SR_T_BOOL, "power_off",
+ "Power off", NULL},
+ {SR_CONF_DATA_SOURCE, SR_T_STRING, "data_source",
+ "Data source", NULL},
+ {SR_CONF_PROBE_FACTOR, SR_T_UINT64, "probe_factor",
+ "Probe factor", NULL},
+ {SR_CONF_ADC_POWERLINE_CYCLES, SR_T_FLOAT, "nplc",
+ "Number of ADC powerline cycles", NULL},
+
+ /* Acquisition modes, sample limiting */
+ {SR_CONF_LIMIT_MSEC, SR_T_UINT64, "limit_time",
+ "Time limit", NULL},
+ {SR_CONF_LIMIT_SAMPLES, SR_T_UINT64, "limit_samples",
+ "Sample limit", NULL},
+ {SR_CONF_LIMIT_FRAMES, SR_T_UINT64, "limit_frames",
+ "Frame limit", NULL},
+ {SR_CONF_CONTINUOUS, SR_T_BOOL, "continuous",
+ "Continuous sampling", NULL},
+ {SR_CONF_DATALOG, SR_T_BOOL, "datalog",
+ "Datalog", NULL},
+ {SR_CONF_DEVICE_MODE, SR_T_STRING, "device_mode",
+ "Device mode", NULL},
+ {SR_CONF_TEST_MODE, SR_T_STRING, "test_mode",
+ "Test mode", NULL},
+
+ ALL_ZERO
+};
+
+/* Please use the same order as in enum sr_mq (libsigrok.h). */
+static struct sr_key_info sr_key_info_mq[] = {
+ {SR_MQ_VOLTAGE, 0, "voltage", "Voltage", NULL},
+ {SR_MQ_CURRENT, 0, "current", "Current", NULL},
+ {SR_MQ_RESISTANCE, 0, "resistance", "Resistance", NULL},
+ {SR_MQ_CAPACITANCE, 0, "capacitance", "Capacitance", NULL},
+ {SR_MQ_TEMPERATURE, 0, "temperature", "Temperature", NULL},
+ {SR_MQ_FREQUENCY, 0, "frequency", "Frequency", NULL},
+ {SR_MQ_DUTY_CYCLE, 0, "duty_cycle", "Duty cycle", NULL},
+ {SR_MQ_CONTINUITY, 0, "continuity", "Continuity", NULL},
+ {SR_MQ_PULSE_WIDTH, 0, "pulse_width", "Pulse width", NULL},
+ {SR_MQ_CONDUCTANCE, 0, "conductance", "Conductance", NULL},
+ {SR_MQ_POWER, 0, "power", "Power", NULL},
+ {SR_MQ_GAIN, 0, "gain", "Gain", NULL},
+ {SR_MQ_SOUND_PRESSURE_LEVEL, 0, "spl", "Sound pressure level", NULL},
+ {SR_MQ_CARBON_MONOXIDE, 0, "co", "Carbon monoxide", NULL},
+ {SR_MQ_RELATIVE_HUMIDITY, 0, "rh", "Relative humidity", NULL},
+ {SR_MQ_TIME, 0, "time", "Time", NULL},
+ {SR_MQ_WIND_SPEED, 0, "wind_speed", "Wind speed", NULL},
+ {SR_MQ_PRESSURE, 0, "pressure", "Pressure", NULL},
+ {SR_MQ_PARALLEL_INDUCTANCE, 0, "parallel_inductance", "Parallel inductance", NULL},
+ {SR_MQ_PARALLEL_CAPACITANCE, 0, "parallel_capacitance", "Parallel capacitance", NULL},
+ {SR_MQ_PARALLEL_RESISTANCE, 0, "parallel_resistance", "Parallel resistance", NULL},
+ {SR_MQ_SERIES_INDUCTANCE, 0, "series_inductance", "Series inductance", NULL},
+ {SR_MQ_SERIES_CAPACITANCE, 0, "series_capacitance", "Series capacitance", NULL},
+ {SR_MQ_SERIES_RESISTANCE, 0, "series_resistance", "Series resistance", NULL},
+ {SR_MQ_DISSIPATION_FACTOR, 0, "dissipation_factor", "Dissipation factor", NULL},
+ {SR_MQ_QUALITY_FACTOR, 0, "quality_factor", "Quality factor", NULL},
+ {SR_MQ_PHASE_ANGLE, 0, "phase_angle", "Phase angle", NULL},
+ {SR_MQ_DIFFERENCE, 0, "difference", "Difference", NULL},
+ {SR_MQ_COUNT, 0, "count", "Count", NULL},
+ {SR_MQ_POWER_FACTOR, 0, "power_factor", "Power factor", NULL},
+ {SR_MQ_APPARENT_POWER, 0, "apparent_power", "Apparent power", NULL},
+ {SR_MQ_MASS, 0, "mass", "Mass", NULL},
+ {SR_MQ_HARMONIC_RATIO, 0, "harmonic_ratio", "Harmonic ratio", NULL},
+ ALL_ZERO
};
+/* Please use the same order as in enum sr_mqflag (libsigrok.h). */
+static struct sr_key_info sr_key_info_mqflag[] = {
+ {SR_MQFLAG_AC, 0, "ac", "AC", NULL},
+ {SR_MQFLAG_DC, 0, "dc", "DC", NULL},
+ {SR_MQFLAG_RMS, 0, "rms", "RMS", NULL},
+ {SR_MQFLAG_DIODE, 0, "diode", "Diode", NULL},
+ {SR_MQFLAG_HOLD, 0, "hold", "Hold", NULL},
+ {SR_MQFLAG_MAX, 0, "max", "Max", NULL},
+ {SR_MQFLAG_MIN, 0, "min", "Min", NULL},
+ {SR_MQFLAG_AUTORANGE, 0, "auto_range", "Auto range", NULL},
+ {SR_MQFLAG_RELATIVE, 0, "relative", "Relative", NULL},
+ {SR_MQFLAG_SPL_FREQ_WEIGHT_A, 0, "spl_freq_weight_a",
+ "Frequency weighted (A)", NULL},
+ {SR_MQFLAG_SPL_FREQ_WEIGHT_C, 0, "spl_freq_weight_c",
+ "Frequency weighted (C)", NULL},
+ {SR_MQFLAG_SPL_FREQ_WEIGHT_Z, 0, "spl_freq_weight_z",
+ "Frequency weighted (Z)", NULL},
+ {SR_MQFLAG_SPL_FREQ_WEIGHT_FLAT, 0, "spl_freq_weight_flat",
+ "Frequency weighted (flat)", NULL},
+ {SR_MQFLAG_SPL_TIME_WEIGHT_S, 0, "spl_time_weight_s",
+ "Time weighted (S)", NULL},
+ {SR_MQFLAG_SPL_TIME_WEIGHT_F, 0, "spl_time_weight_f",
+ "Time weighted (F)", NULL},
+ {SR_MQFLAG_SPL_LAT, 0, "spl_time_average", "Time-averaged (LEQ)", NULL},
+ {SR_MQFLAG_SPL_PCT_OVER_ALARM, 0, "spl_pct_over_alarm",
+ "Percentage over alarm", NULL},
+ {SR_MQFLAG_DURATION, 0, "duration", "Duration", NULL},
+ {SR_MQFLAG_AVG, 0, "average", "Average", NULL},
+ {SR_MQFLAG_REFERENCE, 0, "reference", "Reference", NULL},
+ {SR_MQFLAG_UNSTABLE, 0, "unstable", "Unstable", NULL},
+ {SR_MQFLAG_FOUR_WIRE, 0, "four_wire", "4-Wire", NULL},
+ ALL_ZERO
+};
+
+/* This must handle all the keys from enum sr_datatype (libsigrok.h). */
+/** @private */
SR_PRIV const GVariantType *sr_variant_type_get(int datatype)
{
switch (datatype) {
return G_VARIANT_TYPE_TUPLE;
case SR_T_KEYVALUE:
return G_VARIANT_TYPE_DICTIONARY;
+ case SR_T_MQ:
+ return G_VARIANT_TYPE_TUPLE;
default:
return NULL;
}
}
+/** @private */
SR_PRIV int sr_variant_type_check(uint32_t key, GVariant *value)
{
- const struct sr_config_info *info;
+ const struct sr_key_info *info;
const GVariantType *type, *expected;
- info = sr_config_info_get(key);
+ char *expected_string, *type_string;
+
+ info = sr_key_info_get(SR_KEY_CONFIG, key);
if (!info)
return SR_OK;
+
expected = sr_variant_type_get(info->datatype);
type = g_variant_get_type(value);
- if (!g_variant_type_equal(type, expected)) {
- gchar *expected_string = g_variant_type_dup_string(expected);
- gchar *type_string = g_variant_type_dup_string(type);
+ if (!g_variant_type_equal(type, expected)
+ && !g_variant_type_is_subtype_of(type, expected)) {
+ expected_string = g_variant_type_dup_string(expected);
+ type_string = g_variant_type_dup_string(type);
sr_err("Wrong variant type for key '%s': expected '%s', got '%s'",
info->name, expected_string, type_string);
g_free(expected_string);
g_free(type_string);
return SR_ERR_ARG;
}
+
return SR_OK;
}
/**
* Return the list of supported hardware drivers.
*
- * @return Pointer to the NULL-terminated list of hardware driver pointers.
+ * @param[in] ctx Pointer to a libsigrok context struct. Must not be NULL.
*
- * @since 0.1.0
+ * @retval NULL The ctx argument was NULL, or there are no supported drivers.
+ * @retval Other Pointer to the NULL-terminated list of hardware drivers.
+ * The user should NOT g_free() this list, sr_exit() will do that.
+ *
+ * @since 0.4.0
*/
-SR_API struct sr_dev_driver **sr_driver_list(void)
+SR_API struct sr_dev_driver **sr_driver_list(const struct sr_context *ctx)
{
+ if (!ctx)
+ return NULL;
- return drivers_list;
+ return ctx->driver_list;
}
/**
return SR_ERR_ARG;
}
- sr_spew("Initializing driver '%s'.", driver->name);
- if ((ret = driver->init(ctx)) < 0)
+ /* No log message here, too verbose and not very useful. */
+
+ if ((ret = driver->init(driver, ctx)) < 0)
sr_err("Failed to initialize the driver: %d.", ret);
return ret;
}
+/**
+ * Enumerate scan options supported by this driver.
+ *
+ * Before calling sr_driver_scan_options_list(), the user must have previously
+ * initialized the driver by calling sr_driver_init().
+ *
+ * @param driver The driver to enumerate options for. This must be a pointer
+ * to one of the entries returned by sr_driver_list(). Must not
+ * be NULL.
+ *
+ * @return A GArray * of uint32_t entries, or NULL on invalid arguments. Each
+ * entry is a configuration key that is supported as a scan option.
+ * The array must be freed by the caller using g_array_free().
+ *
+ * @since 0.4.0
+ */
+SR_API GArray *sr_driver_scan_options_list(const struct sr_dev_driver *driver)
+{
+ GVariant *gvar;
+ const uint32_t *opts;
+ gsize num_opts;
+ GArray *result;
+
+ if (sr_config_list(driver, NULL, NULL, SR_CONF_SCAN_OPTIONS, &gvar) != SR_OK)
+ return NULL;
+
+ opts = g_variant_get_fixed_array(gvar, &num_opts, sizeof(uint32_t));
+
+ result = g_array_sized_new(FALSE, FALSE, sizeof(uint32_t), num_opts);
+
+ g_array_insert_vals(result, 0, opts, num_opts);
+
+ g_variant_unref(gvar);
+
+ return result;
+}
+
+static int check_options(struct sr_dev_driver *driver, GSList *options,
+ uint32_t optlist_key, struct sr_dev_inst *sdi,
+ struct sr_channel_group *cg)
+{
+ struct sr_config *src;
+ const struct sr_key_info *srci;
+ GVariant *gvar_opts;
+ GSList *l;
+ const uint32_t *opts;
+ gsize num_opts, i;
+ int ret;
+
+ if (sr_config_list(driver, sdi, cg, optlist_key, &gvar_opts) != SR_OK) {
+ /* Driver publishes no options for this optlist. */
+ return SR_ERR;
+ }
+
+ ret = SR_OK;
+ opts = g_variant_get_fixed_array(gvar_opts, &num_opts, sizeof(uint32_t));
+ for (l = options; l; l = l->next) {
+ src = l->data;
+ for (i = 0; i < num_opts; i++) {
+ if (opts[i] == src->key)
+ break;
+ }
+ if (i == num_opts) {
+ if (!(srci = sr_key_info_get(SR_KEY_CONFIG, src->key)))
+ /* Shouldn't happen. */
+ sr_err("Invalid option %d.", src->key);
+ else
+ sr_err("Invalid option '%s'.", srci->id);
+ ret = SR_ERR_ARG;
+ break;
+ }
+ if (sr_variant_type_check(src->key, src->data) != SR_OK) {
+ ret = SR_ERR_ARG;
+ break;
+ }
+ }
+ g_variant_unref(gvar_opts);
+
+ return ret;
+}
+
/**
* Tell a hardware driver to scan for devices.
*
SR_API GSList *sr_driver_scan(struct sr_dev_driver *driver, GSList *options)
{
GSList *l;
- struct sr_config *src;
if (!driver) {
sr_err("Invalid driver, can't scan for devices.");
return NULL;
}
- if (!driver->priv) {
+ if (!driver->context) {
sr_err("Driver not initialized, can't scan for devices.");
return NULL;
}
- for (l = options; l; l = l->next) {
- src = l->data;
- if (sr_variant_type_check(src->key, src->data) != SR_OK)
+ if (options) {
+ if (check_options(driver, options, SR_CONF_SCAN_OPTIONS, NULL, NULL) != SR_OK)
return NULL;
}
- l = driver->scan(options);
+ l = driver->scan(driver, options);
- sr_spew("Scan of '%s' found %d devices.", driver->name,
- g_slist_length(l));
+ sr_spew("Scan found %d devices (%s).", g_slist_length(l), driver->name);
return l;
}
-/** Call driver cleanup function for all drivers.
- * @private */
-SR_PRIV void sr_hw_cleanup_all(void)
+/**
+ * Call driver cleanup function for all drivers.
+ *
+ * @param[in] ctx Pointer to a libsigrok context struct. Must not be NULL.
+ *
+ * @private
+ */
+SR_PRIV void sr_hw_cleanup_all(const struct sr_context *ctx)
{
int i;
struct sr_dev_driver **drivers;
- drivers = sr_driver_list();
+ if (!ctx)
+ return;
+
+ sr_dbg("Cleaning up all drivers.");
+
+ drivers = sr_driver_list(ctx);
for (i = 0; drivers[i]; i++) {
if (drivers[i]->cleanup)
- drivers[i]->cleanup();
+ drivers[i]->cleanup(drivers[i]);
+ drivers[i]->context = NULL;
}
}
-/** Allocate struct sr_config.
- * A floating reference can be passed in for data.
- * @private
+/**
+ * Allocate struct sr_config.
+ *
+ * A floating reference can be passed in for data.
+ *
+ * @private
*/
SR_PRIV struct sr_config *sr_config_new(uint32_t key, GVariant *data)
{
struct sr_config *src;
- if (!(src = g_try_malloc(sizeof(struct sr_config))))
- return NULL;
+ src = g_malloc0(sizeof(struct sr_config));
src->key = key;
src->data = g_variant_ref_sink(data);
return src;
}
-/** Free struct sr_config.
- * @private
+/**
+ * Free struct sr_config.
+ *
+ * @private
*/
SR_PRIV void sr_config_free(struct sr_config *src)
{
-
if (!src || !src->data) {
sr_err("%s: invalid data!", __func__);
return;
g_variant_unref(src->data);
g_free(src);
+}
+/** @private */
+SR_PRIV int sr_dev_acquisition_start(struct sr_dev_inst *sdi)
+{
+ if (!sdi || !sdi->driver) {
+ sr_err("%s: Invalid arguments.", __func__);
+ return SR_ERR_ARG;
+ }
+
+ if (sdi->status != SR_ST_ACTIVE) {
+ sr_err("%s: Device instance not active, can't start.",
+ sdi->driver->name);
+ return SR_ERR_DEV_CLOSED;
+ }
+
+ sr_dbg("%s: Starting acquisition.", sdi->driver->name);
+
+ return sdi->driver->dev_acquisition_start(sdi);
+}
+
+/** @private */
+SR_PRIV int sr_dev_acquisition_stop(struct sr_dev_inst *sdi)
+{
+ if (!sdi || !sdi->driver) {
+ sr_err("%s: Invalid arguments.", __func__);
+ return SR_ERR_ARG;
+ }
+
+ if (sdi->status != SR_ST_ACTIVE) {
+ sr_err("%s: Device instance not active, can't stop.",
+ sdi->driver->name);
+ return SR_ERR_DEV_CLOSED;
+ }
+
+ sr_dbg("%s: Stopping acquisition.", sdi->driver->name);
+
+ return sdi->driver->dev_acquisition_stop(sdi);
+}
+
+static void log_key(const struct sr_dev_inst *sdi,
+ const struct sr_channel_group *cg, uint32_t key, unsigned int op,
+ GVariant *data)
+{
+ const char *opstr;
+ const struct sr_key_info *srci;
+ gchar *tmp_str;
+
+ /* Don't log SR_CONF_DEVICE_OPTIONS, it's verbose and not too useful. */
+ if (key == SR_CONF_DEVICE_OPTIONS)
+ return;
+
+ opstr = op == SR_CONF_GET ? "get" : op == SR_CONF_SET ? "set" : "list";
+ srci = sr_key_info_get(SR_KEY_CONFIG, key);
+
+ tmp_str = g_variant_print(data, TRUE);
+ sr_spew("sr_config_%s(): key %d (%s) sdi %p cg %s -> %s", opstr, key,
+ srci ? srci->id : "NULL", sdi, cg ? cg->name : "NULL",
+ data ? tmp_str : "NULL");
+ g_free(tmp_str);
+}
+
+static int check_key(const struct sr_dev_driver *driver,
+ const struct sr_dev_inst *sdi, const struct sr_channel_group *cg,
+ uint32_t key, unsigned int op, GVariant *data)
+{
+ const struct sr_key_info *srci;
+ gsize num_opts, i;
+ GVariant *gvar_opts;
+ const uint32_t *opts;
+ uint32_t pub_opt;
+ const char *suffix;
+ const char *opstr;
+
+ if (sdi && cg)
+ suffix = " for this device instance and channel group";
+ else if (sdi)
+ suffix = " for this device instance";
+ else
+ suffix = "";
+
+ if (!(srci = sr_key_info_get(SR_KEY_CONFIG, key))) {
+ sr_err("Invalid key %d.", key);
+ return SR_ERR_ARG;
+ }
+ opstr = op == SR_CONF_GET ? "get" : op == SR_CONF_SET ? "set" : "list";
+
+ switch (key) {
+ case SR_CONF_LIMIT_MSEC:
+ case SR_CONF_LIMIT_SAMPLES:
+ case SR_CONF_SAMPLERATE:
+ /* Setting any of these to 0 is not useful. */
+ if (op != SR_CONF_SET || !data)
+ break;
+ if (g_variant_get_uint64(data) == 0) {
+ sr_err("Cannot set '%s' to 0.", srci->id);
+ return SR_ERR_ARG;
+ }
+ break;
+ case SR_CONF_CAPTURE_RATIO:
+ /* Capture ratio must always be between 0 and 100. */
+ if (op != SR_CONF_SET || !data)
+ break;
+ if (g_variant_get_uint64(data) > 100) {
+ sr_err("Capture ratio must be 0..100.");
+ return SR_ERR_ARG;
+ }
+ break;
+ }
+
+ if (sr_config_list(driver, sdi, cg, SR_CONF_DEVICE_OPTIONS, &gvar_opts) != SR_OK) {
+ /* Driver publishes no options. */
+ sr_err("No options available%s.", suffix);
+ return SR_ERR_ARG;
+ }
+ opts = g_variant_get_fixed_array(gvar_opts, &num_opts, sizeof(uint32_t));
+ pub_opt = 0;
+ for (i = 0; i < num_opts; i++) {
+ if ((opts[i] & SR_CONF_MASK) == key) {
+ pub_opt = opts[i];
+ break;
+ }
+ }
+ g_variant_unref(gvar_opts);
+ if (!pub_opt) {
+ sr_err("Option '%s' not available%s.", srci->id, suffix);
+ return SR_ERR_ARG;
+ }
+
+ if (!(pub_opt & op)) {
+ sr_err("Option '%s' not available to %s%s.", srci->id, opstr, suffix);
+ return SR_ERR_ARG;
+ }
+
+ return SR_OK;
}
/**
* Query value of a configuration key at the given driver or device instance.
*
- * @param[in] driver The sr_dev_driver struct to query.
+ * @param[in] driver The sr_dev_driver struct to query. Must not be NULL.
* @param[in] sdi (optional) If the key is specific to a device, this must
* contain a pointer to the struct sr_dev_inst to be checked.
- * Otherwise it must be NULL.
+ * Otherwise it must be NULL. If sdi is != NULL, sdi->priv must
+ * also be != NULL.
* @param[in] cg The channel group on the device for which to list the
- * values, or NULL.
+ * values, or NULL.
* @param[in] key The configuration key (SR_CONF_*).
* @param[in,out] data Pointer to a GVariant where the value will be stored.
* Must not be NULL. The caller is given ownership of the GVariant
* @retval SR_OK Success.
* @retval SR_ERR Error.
* @retval SR_ERR_ARG The driver doesn't know that key, but this is not to be
- * interpreted as an error by the caller; merely as an indication
- * that it's not applicable.
+ * interpreted as an error by the caller; merely as an indication
+ * that it's not applicable.
*
* @since 0.3.0
*/
if (!driver->config_get)
return SR_ERR_ARG;
+ if (check_key(driver, sdi, cg, key, SR_CONF_GET, NULL) != SR_OK)
+ return SR_ERR_ARG;
+
+ if (sdi && !sdi->priv) {
+ sr_err("Can't get config (sdi != NULL, sdi->priv == NULL).");
+ return SR_ERR;
+ }
+
if ((ret = driver->config_get(key, data, sdi, cg)) == SR_OK) {
+ log_key(sdi, cg, key, SR_CONF_GET, *data);
/* Got a floating reference from the driver. Sink it here,
* caller will need to unref when done with it. */
g_variant_ref_sink(*data);
}
+ if (ret == SR_ERR_CHANNEL_GROUP)
+ sr_err("%s: No channel group specified.",
+ (sdi) ? sdi->driver->name : "unknown");
+
return ret;
}
/**
* Set value of a configuration key in a device instance.
*
- * @param[in] sdi The device instance.
+ * @param[in] sdi The device instance. Must not be NULL. sdi->driver and
+ * sdi->priv must not be NULL either.
* @param[in] cg The channel group on the device for which to list the
* values, or NULL.
* @param[in] key The configuration key (SR_CONF_*).
* @retval SR_OK Success.
* @retval SR_ERR Error.
* @retval SR_ERR_ARG The driver doesn't know that key, but this is not to be
- * interpreted as an error by the caller; merely as an indication
- * that it's not applicable.
+ * interpreted as an error by the caller; merely as an indication
+ * that it's not applicable.
*
* @since 0.3.0
*/
g_variant_ref_sink(data);
- if (!sdi || !sdi->driver || !data)
+ if (!sdi || !sdi->driver || !sdi->priv || !data)
ret = SR_ERR;
else if (!sdi->driver->config_set)
ret = SR_ERR_ARG;
- else if ((ret = sr_variant_type_check(key, data)) == SR_OK)
+ else if (sdi->status != SR_ST_ACTIVE) {
+ sr_err("%s: Device instance not active, can't set config.",
+ sdi->driver->name);
+ ret = SR_ERR_DEV_CLOSED;
+ } else if (check_key(sdi->driver, sdi, cg, key, SR_CONF_SET, data) != SR_OK)
+ return SR_ERR_ARG;
+ else if ((ret = sr_variant_type_check(key, data)) == SR_OK) {
+ log_key(sdi, cg, key, SR_CONF_SET, data);
ret = sdi->driver->config_set(key, data, sdi, cg);
+ }
g_variant_unref(data);
+ if (ret == SR_ERR_CHANNEL_GROUP)
+ sr_err("%s: No channel group specified.",
+ (sdi) ? sdi->driver->name : "unknown");
+
return ret;
}
ret = SR_ERR;
else if (!sdi->driver->config_commit)
ret = SR_OK;
- else
+ else if (sdi->status != SR_ST_ACTIVE) {
+ sr_err("%s: Device instance not active, can't commit config.",
+ sdi->driver->name);
+ ret = SR_ERR_DEV_CLOSED;
+ } else
ret = sdi->driver->config_commit(sdi);
return ret;
/**
* List all possible values for a configuration key.
*
- * @param[in] driver The sr_dev_driver struct to query.
- * @param[in] sdi (optional) If the key is specific to a device, this must
- * contain a pointer to the struct sr_dev_inst to be checked.
- * @param[in] cg The channel group on the device for which to list the
- * values, or NULL.
+ * @param[in] driver The sr_dev_driver struct to query. Must not be NULL.
+ * @param[in] sdi (optional) If the key is specific to a device instance, this
+ * must contain a pointer to the struct sr_dev_inst to be checked.
+ * Otherwise it must be NULL. If sdi is != NULL, sdi->priv must
+ * also be != NULL.
+ * @param[in] cg The channel group on the device instance for which to list
+ * the values, or NULL. If this device instance doesn't
+ * have channel groups, this must not be != NULL.
+ * If cg is NULL, this function will return the "common" device
+ * instance options that are channel-group independent. Otherwise
+ * it will return the channel-group specific options.
* @param[in] key The configuration key (SR_CONF_*).
* @param[in,out] data A pointer to a GVariant where the list will be stored.
- * The caller is given ownership of the GVariant and must thus
- * unref the GVariant after use. However if this function
- * returns an error code, the field should be considered
- * unused, and should not be unreferenced.
+ * The caller is given ownership of the GVariant and must thus
+ * unref the GVariant after use. However if this function
+ * returns an error code, the field should be considered
+ * unused, and should not be unreferenced.
*
* @retval SR_OK Success.
* @retval SR_ERR Error.
* @retval SR_ERR_ARG The driver doesn't know that key, but this is not to be
- * interpreted as an error by the caller; merely as an indication
- * that it's not applicable.
+ * interpreted as an error by the caller; merely as an indication
+ * that it's not applicable.
*
* @since 0.3.0
*/
int ret;
if (!driver || !data)
- ret = SR_ERR;
- else if (!driver->config_list)
- ret = SR_ERR_ARG;
- else if ((ret = driver->config_list(key, data, sdi, cg)) == SR_OK)
+ return SR_ERR;
+
+ if (!driver->config_list)
+ return SR_ERR_ARG;
+
+ if (key != SR_CONF_SCAN_OPTIONS && key != SR_CONF_DEVICE_OPTIONS) {
+ if (check_key(driver, sdi, cg, key, SR_CONF_LIST, NULL) != SR_OK)
+ return SR_ERR_ARG;
+ }
+
+ if (sdi && !sdi->priv) {
+ sr_err("Can't list config (sdi != NULL, sdi->priv == NULL).");
+ return SR_ERR;
+ }
+
+ if (key != SR_CONF_SCAN_OPTIONS && key != SR_CONF_DEVICE_OPTIONS && !sdi) {
+ sr_err("Config keys other than SR_CONF_SCAN_OPTIONS and "
+ "SR_CONF_DEVICE_OPTIONS always need an sdi.");
+ return SR_ERR_ARG;
+ }
+
+ if (cg && sdi && !sdi->channel_groups) {
+ sr_err("Can't list config for channel group, there are none.");
+ return SR_ERR_ARG;
+ }
+
+ if (cg && sdi && !g_slist_find(sdi->channel_groups, cg)) {
+ sr_err("If a channel group is specified, it must be a valid one.");
+ return SR_ERR_ARG;
+ }
+
+ if (cg && !sdi) {
+ sr_err("Need sdi when a channel group is specified.");
+ return SR_ERR_ARG;
+ }
+
+ if ((ret = driver->config_list(key, data, sdi, cg)) == SR_OK) {
+ log_key(sdi, cg, key, SR_CONF_LIST, *data);
g_variant_ref_sink(*data);
+ }
+
+ if (ret == SR_ERR_CHANNEL_GROUP)
+ sr_err("%s: No channel group specified.",
+ (sdi) ? sdi->driver->name : "unknown");
return ret;
}
+static struct sr_key_info *get_keytable(int keytype)
+{
+ struct sr_key_info *table;
+
+ switch (keytype) {
+ case SR_KEY_CONFIG:
+ table = sr_key_info_config;
+ break;
+ case SR_KEY_MQ:
+ table = sr_key_info_mq;
+ break;
+ case SR_KEY_MQFLAGS:
+ table = sr_key_info_mqflag;
+ break;
+ default:
+ sr_err("Invalid keytype %d", keytype);
+ return NULL;
+ }
+
+ return table;
+}
+
/**
- * Get information about a configuration key, by key.
+ * Get information about a key, by key.
*
- * @param[in] key The configuration key.
+ * @param[in] keytype The namespace the key is in.
+ * @param[in] key The key to find.
*
- * @return A pointer to a struct sr_config_info, or NULL if the key
+ * @return A pointer to a struct sr_key_info, or NULL if the key
* was not found.
*
- * @since 0.2.0
+ * @since 0.3.0
*/
-SR_API const struct sr_config_info *sr_config_info_get(uint32_t key)
+SR_API const struct sr_key_info *sr_key_info_get(int keytype, uint32_t key)
{
+ struct sr_key_info *table;
int i;
- for (i = 0; sr_config_info_data[i].key; i++) {
- if (sr_config_info_data[i].key == key)
- return &sr_config_info_data[i];
+ if (!(table = get_keytable(keytype)))
+ return NULL;
+
+ for (i = 0; table[i].key; i++) {
+ if (table[i].key == key)
+ return &table[i];
}
return NULL;
}
/**
- * Get information about a configuration key, by name.
+ * Get information about a key, by name.
*
- * @param[in] optname The configuration key.
+ * @param[in] keytype The namespace the key is in.
+ * @param[in] keyid The key id string.
*
- * @return A pointer to a struct sr_config_info, or NULL if the key
+ * @return A pointer to a struct sr_key_info, or NULL if the key
* was not found.
*
* @since 0.2.0
*/
-SR_API const struct sr_config_info *sr_config_info_name_get(const char *optname)
+SR_API const struct sr_key_info *sr_key_info_name_get(int keytype, const char *keyid)
{
+ struct sr_key_info *table;
int i;
- for (i = 0; sr_config_info_data[i].key; i++) {
- if (!strcmp(sr_config_info_data[i].id, optname))
- return &sr_config_info_data[i];
+ if (!(table = get_keytable(keytype)))
+ return NULL;
+
+ for (i = 0; table[i].key; i++) {
+ if (!table[i].id)
+ continue;
+ if (!strcmp(table[i].id, keyid))
+ return &table[i];
}
return NULL;