libsigrok/libsigrok.h

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/*
* This file is part of the sigrok project.
*
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* Copyright (C) 2010-2012 Bert Vermeulen <bert@biot.com>
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*/
#ifndef LIBSIGROK_SIGROK_H
#define LIBSIGROK_SIGROK_H
#include <stdio.h>
#include <sys/time.h>
#include <stdint.h>
#include <inttypes.h>
#include <glib.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @file
*
* The public libsigrok header file to be used by frontends.
*
* This is the only file that libsigrok users (frontends) are supposed to
* use and #include. There are other header files which get installed with
* libsigrok, but those are not meant to be used directly by frontends.
*
* The correct way to get/use the libsigrok API functions is:
*
* @code{.c}
* #include <libsigrok/libsigrok.h>
* @endcode
*/
/*
* All possible return codes of libsigrok functions must be listed here.
* Functions should never return hardcoded numbers as status, but rather
* use these enum values. All error codes are negative numbers.
*
* The error codes are globally unique in libsigrok, i.e. if one of the
* libsigrok functions returns a "malloc error" it must be exactly the same
* return value as used by all other functions to indicate "malloc error".
* There must be no functions which indicate two different errors via the
* same return code.
*
* Also, for compatibility reasons, no defined return codes are ever removed
* or reused for different errors later. You can only add new entries and
* return codes, but never remove or redefine existing ones.
*/
/** Status/error codes returned by libsigrok functions. */
enum {
SR_OK = 0, /**< No error. */
SR_ERR = -1, /**< Generic/unspecified error. */
SR_ERR_MALLOC = -2, /**< Malloc/calloc/realloc error. */
SR_ERR_ARG = -3, /**< Function argument error. */
SR_ERR_BUG = -4, /**< Errors hinting at internal bugs. */
SR_ERR_SAMPLERATE = -5, /**< Incorrect samplerate. */
};
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#define SR_MAX_NUM_PROBES 64 /* Limited by uint64_t. */
#define SR_MAX_PROBENAME_LEN 32
/* Handy little macros */
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#define SR_HZ(n) (n)
#define SR_KHZ(n) ((n) * 1000)
#define SR_MHZ(n) ((n) * 1000000)
#define SR_GHZ(n) ((n) * 1000000000)
#define SR_HZ_TO_NS(n) (1000000000 / (n))
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/** libsigrok loglevels. */
enum {
SR_LOG_NONE = 0, /**< Output no messages at all. */
SR_LOG_ERR = 1, /**< Output error messages. */
SR_LOG_WARN = 2, /**< Output warnings. */
SR_LOG_INFO = 3, /**< Output informational messages. */
SR_LOG_DBG = 4, /**< Output debug messages. */
SR_LOG_SPEW = 5, /**< Output very noisy debug messages. */
};
/*
* Use SR_API to mark public API symbols, and SR_PRIV for private symbols.
*
* Variables and functions marked 'static' are private already and don't
* need SR_PRIV. However, functions which are not static (because they need
* to be used in other libsigrok-internal files) but are also not meant to
* be part of the public libsigrok API, must use SR_PRIV.
*
* This uses the 'visibility' feature of gcc (requires gcc >= 4.0).
*
* This feature is not available on MinGW/Windows, as it is a feature of
* ELF files and MinGW/Windows uses PE files.
*
* Details: http://gcc.gnu.org/wiki/Visibility
*/
/* Marks public libsigrok API symbols. */
#ifndef _WIN32
#define SR_API __attribute__((visibility("default")))
#else
#define SR_API
#endif
/* Marks private, non-public libsigrok symbols (not part of the API). */
#ifndef _WIN32
#define SR_PRIV __attribute__((visibility("hidden")))
#else
#define SR_PRIV
#endif
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typedef int (*sr_receive_data_callback_t)(int fd, int revents, void *cb_data);
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/** Data types used by sr_config_info(). */
enum {
SR_T_UINT64 = 10000,
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SR_T_CHAR,
SR_T_BOOL,
SR_T_FLOAT,
SR_T_RATIONAL_PERIOD,
SR_T_RATIONAL_VOLT,
SR_T_KEYVALUE,
};
/** Rational number data type, containing numerator and denominator values. */
struct sr_rational {
/** Numerator of the rational number. */
uint64_t p;
/** Denominator of the rational number. */
uint64_t q;
};
/** Value for sr_datafeed_packet.type. */
enum {
SR_DF_HEADER = 10000,
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SR_DF_END,
SR_DF_META,
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SR_DF_TRIGGER,
SR_DF_LOGIC,
SR_DF_ANALOG,
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SR_DF_FRAME_BEGIN,
SR_DF_FRAME_END,
};
/** Values for sr_datafeed_analog.mq. */
enum {
SR_MQ_VOLTAGE = 10000,
SR_MQ_CURRENT,
SR_MQ_RESISTANCE,
SR_MQ_CAPACITANCE,
SR_MQ_TEMPERATURE,
SR_MQ_FREQUENCY,
SR_MQ_DUTY_CYCLE,
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SR_MQ_CONTINUITY,
SR_MQ_PULSE_WIDTH,
SR_MQ_CONDUCTANCE,
/** Electrical power, usually in W, or dBm. */
SR_MQ_POWER,
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/** Gain (a transistor's gain, or hFE, for example). */
SR_MQ_GAIN,
/** Logarithmic representation of sound pressure relative to a
* reference value. */
SR_MQ_SOUND_PRESSURE_LEVEL,
SR_MQ_CARBON_MONOXIDE,
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SR_MQ_RELATIVE_HUMIDITY,
};
/** Values for sr_datafeed_analog.unit. */
enum {
SR_UNIT_VOLT = 10000,
SR_UNIT_AMPERE,
SR_UNIT_OHM,
SR_UNIT_FARAD,
SR_UNIT_KELVIN,
SR_UNIT_CELSIUS,
SR_UNIT_FAHRENHEIT,
SR_UNIT_HERTZ,
SR_UNIT_PERCENTAGE,
SR_UNIT_BOOLEAN,
SR_UNIT_SECOND,
/** Unit of conductance, the inverse of resistance. */
SR_UNIT_SIEMENS,
/**
* An absolute measurement of power, in decibels, referenced to
* 1 milliwatt (dBu).
*/
SR_UNIT_DECIBEL_MW,
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/** Voltage in decibel, referenced to 1 volt (dBV). */
SR_UNIT_DECIBEL_VOLT,
/**
* Measurements that intrinsically do not have units attached, such
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* as ratios, gains, etc. Specifically, a transistor's gain (hFE) is
* a unitless quantity, for example.
*/
SR_UNIT_UNITLESS,
/** Sound pressure level relative so 20 micropascals. */
SR_UNIT_DECIBEL_SPL,
/**
* Normalized (0 to 1) concentration of a substance or compound with 0
* representing a concentration of 0%, and 1 being 100%. This is
* represented as the fraction of number of particles of the substance.
*/
SR_UNIT_CONCENTRATION,
};
/** Values for sr_datafeed_analog.flags. */
enum {
/** Voltage measurement is alternating current (AC). */
SR_MQFLAG_AC = 0x01,
/** Voltage measurement is direct current (DC). */
SR_MQFLAG_DC = 0x02,
/** This is a true RMS measurement. */
SR_MQFLAG_RMS = 0x04,
/** Value is voltage drop across a diode, or NAN. */
SR_MQFLAG_DIODE = 0x08,
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/** Device is in "hold" mode (repeating the last measurement). */
SR_MQFLAG_HOLD = 0x10,
/** Device is in "max" mode, only updating upon a new max value. */
SR_MQFLAG_MAX = 0x20,
/** Device is in "min" mode, only updating upon a new min value. */
SR_MQFLAG_MIN = 0x40,
/** Device is in autoranging mode. */
SR_MQFLAG_AUTORANGE = 0x80,
/** Device is in relative mode. */
SR_MQFLAG_RELATIVE = 0x100,
/** Sound pressure level is A-weighted in the frequency domain,
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* according to IEC 61672:2003. */
SR_MQFLAG_SPL_FREQ_WEIGHT_A = 0x200,
/** Sound pressure level is C-weighted in the frequency domain,
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* according to IEC 61672:2003. */
SR_MQFLAG_SPL_FREQ_WEIGHT_C = 0x400,
/** Sound pressure level is Z-weighted (i.e. not at all) in the
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* frequency domain, according to IEC 61672:2003. */
SR_MQFLAG_SPL_FREQ_WEIGHT_Z = 0x800,
/** Sound pressure level is not weighted in the frequency domain,
* albeit without standards-defined low and high frequency limits. */
SR_MQFLAG_SPL_FREQ_WEIGHT_FLAT = 0x1000,
/** Sound pressure level measurement is S-weighted (1s) in the
* time domain. */
SR_MQFLAG_SPL_TIME_WEIGHT_S = 0x2000,
/** Sound pressure level measurement is F-weighted (125ms) in the
* time domain. */
SR_MQFLAG_SPL_TIME_WEIGHT_F = 0x4000,
/** Sound pressure level is time-averaged (LAT), also known as
* Equivalent Continuous A-weighted Sound Level (LEQ). */
SR_MQFLAG_SPL_LAT = 0x8000,
/** Sound pressure level represented as a percentage of measurements
* that were over a preset alarm level. */
SR_MQFLAG_SPL_PCT_OVER_ALARM = 0x10000,
};
struct sr_context;
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struct sr_datafeed_packet {
uint16_t type;
const void *payload;
};
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struct sr_datafeed_header {
int feed_version;
struct timeval starttime;
};
struct sr_datafeed_meta {
GSList *config;
};
struct sr_datafeed_logic {
uint64_t length;
uint16_t unitsize;
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void *data;
};
struct sr_datafeed_analog {
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/** The probes for which data is included in this packet. */
GSList *probes;
int num_samples;
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/** Measured quantity (voltage, current, temperature, and so on). */
int mq;
/** Unit in which the MQ is measured. */
int unit;
/** Bitmap with extra information about the MQ. */
uint64_t mqflags;
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/** The analog value(s). The data is interleaved according to
* the probes list. */
float *data;
};
struct sr_input {
struct sr_input_format *format;
GHashTable *param;
struct sr_dev_inst *sdi;
void *internal;
};
struct sr_input_format {
char *id;
char *description;
int (*format_match) (const char *filename);
int (*init) (struct sr_input *in, const char *filename);
int (*loadfile) (struct sr_input *in, const char *filename);
};
struct sr_output {
struct sr_output_format *format;
struct sr_dev_inst *sdi;
char *param;
void *internal;
};
struct sr_output_format {
char *id;
char *description;
int df_type;
int (*init) (struct sr_output *o);
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/* Obsolete, use recv() instead. */
int (*data) (struct sr_output *o, const uint8_t *data_in,
uint64_t length_in, uint8_t **data_out,
uint64_t *length_out);
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/* Obsolete, use recv() instead. */
int (*event) (struct sr_output *o, int event_type, uint8_t **data_out,
uint64_t *length_out);
GString *(*recv) (struct sr_output *o, const struct sr_dev_inst *sdi,
const struct sr_datafeed_packet *packet);
int (*cleanup) (struct sr_output *o);
};
enum {
SR_PROBE_LOGIC = 10000,
SR_PROBE_ANALOG,
};
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struct sr_probe {
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/* The index field will go: use g_slist_length(sdi->probes) instead. */
int index;
int type;
gboolean enabled;
char *name;
char *trigger;
};
struct sr_config {
int key;
const void *value;
};
struct sr_config_info {
int key;
int datatype;
char *id;
char *name;
char *description;
};
enum {
/*--- Device classes ------------------------------------------------*/
/** The device can act as logic analyzer. */
SR_CONF_LOGIC_ANALYZER = 10000,
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/** The device can act as an oscilloscope. */
SR_CONF_OSCILLOSCOPE,
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/** The device can act as a multimeter. */
SR_CONF_MULTIMETER,
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/** The device is a demo device. */
SR_CONF_DEMO_DEV,
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/** The device can act as a sound level meter. */
SR_CONF_SOUNDLEVELMETER,
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/** The device can measure temperature. */
SR_CONF_THERMOMETER,
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/** The device can measure humidity. */
SR_CONF_HYGROMETER,
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/*--- Driver scan options -------------------------------------------*/
/**
* Specification on how to connect to a device.
*
* In combination with SR_CONF_SERIALCOMM, this is a serial port in
* the form which makes sense to the OS (e.g., /dev/ttyS0).
* Otherwise this specifies a USB device, either in the form of
* @verbatim <bus>.<address> @endverbatim (decimal, e.g. 1.65) or
* @verbatim <vendorid>.<productid> @endverbatim
* (hexadecimal, e.g. 1d6b.0001).
*/
SR_CONF_CONN = 20000,
/**
* Serial communication specification, in the form:
*
* @verbatim <baudrate>/<databits><parity><stopbits> @endverbatim
*
* Example: 9600/8n1
*
* The string may also be followed by one or more special settings,
* in the form "/key=value". Supported keys and their values are:
*
* rts 0,1 set the port's RTS pin to low or high
* dtr 0,1 set the port's DTR pin to low or high
* flow 0 no flow control
* 1 hardware-based (RTS/CTS) flow control
* 2 software-based (XON/XOFF) flow control
*
* This is always an optional parameter, since a driver typically
* knows the speed at which the device wants to communicate.
*/
SR_CONF_SERIALCOMM,
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/*--- Device configuration ------------------------------------------*/
/** The device supports setting/changing its samplerate. */
SR_CONF_SAMPLERATE = 30000,
/** The device supports setting a pre/post-trigger capture ratio. */
SR_CONF_CAPTURE_RATIO,
/** The device supports setting a pattern (pattern generator mode). */
SR_CONF_PATTERN_MODE,
/** The device supports Run Length Encoding. */
SR_CONF_RLE,
/** The device supports setting trigger slope. */
SR_CONF_TRIGGER_SLOPE,
/** Trigger source. */
SR_CONF_TRIGGER_SOURCE,
/** Horizontal trigger position. */
SR_CONF_HORIZ_TRIGGERPOS,
/** Buffer size. */
SR_CONF_BUFFERSIZE,
/** Time base. */
SR_CONF_TIMEBASE,
/** Filter. */
SR_CONF_FILTER,
/** Volts/div. */
SR_CONF_VDIV,
/** Coupling. */
SR_CONF_COUPLING,
/** Trigger types. */
SR_CONF_TRIGGER_TYPE,
/*--- Special stuff -------------------------------------------------*/
/** Scan options supported by the driver. */
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SR_CONF_SCAN_OPTIONS = 40000,
/** Device options for a particular device. */
SR_CONF_DEVICE_OPTIONS,
/** Session filename. */
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SR_CONF_SESSIONFILE,
/** The device supports specifying a capturefile to inject. */
SR_CONF_CAPTUREFILE,
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/** The device supports specifying the capturefile unit size. */
SR_CONF_CAPTURE_UNITSIZE,
/** The device supports setting the number of probes. */
SR_CONF_CAPTURE_NUM_PROBES,
/*--- Acquisition modes ---------------------------------------------*/
/**
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* The device supports setting a sample time limit (how long
* the sample acquisition should run, in ms).
*/
SR_CONF_LIMIT_MSEC = 50000,
/**
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* The device supports setting a sample number limit (how many
* samples should be acquired).
*/
SR_CONF_LIMIT_SAMPLES,
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/**
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* The device supports setting a frame limit (how many
* frames should be acquired).
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*/
SR_CONF_LIMIT_FRAMES,
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/**
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* The device supports continuous sampling. Neither a time limit
* nor a sample number limit has to be supplied, it will just acquire
* samples continuously, until explicitly stopped by a certain command.
*/
SR_CONF_CONTINUOUS,
};
struct sr_dev_inst {
struct sr_dev_driver *driver;
int index;
int status;
int inst_type;
char *vendor;
char *model;
char *version;
GSList *probes;
void *priv;
};
/** Types of device instances (sr_dev_inst). */
enum {
/** Device instance type for USB devices. */
SR_INST_USB = 10000,
/** Device instance type for serial port devices. */
SR_INST_SERIAL,
};
/** Device instance status. */
enum {
/** The device instance was not found. */
SR_ST_NOT_FOUND = 10000,
/** The device instance was found, but is still booting. */
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SR_ST_INITIALIZING,
/** The device instance is live, but not in use. */
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SR_ST_INACTIVE,
/** The device instance is actively in use in a session. */
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SR_ST_ACTIVE,
/** The device is winding down its session. */
SR_ST_STOPPING,
};
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/*
* A device supports either a range of samplerates with steps of a given
* granularity, or is limited to a set of defined samplerates. Use either
* step or list, but not both.
*/
struct sr_samplerates {
uint64_t low;
uint64_t high;
uint64_t step;
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const uint64_t *list;
};
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struct sr_dev_driver {
/* Driver-specific */
char *name;
char *longname;
int api_version;
int (*init) (struct sr_context *sr_ctx);
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int (*cleanup) (void);
GSList *(*scan) (GSList *options);
GSList *(*dev_list) (void);
int (*dev_clear) (void);
int (*config_get) (int id, const void **value,
const struct sr_dev_inst *sdi);
int (*config_set) (int id, const void *value,
const struct sr_dev_inst *sdi);
int (*config_list) (int info_id, const void **data,
const struct sr_dev_inst *sdi);
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/* Device-specific */
int (*dev_open) (struct sr_dev_inst *sdi);
int (*dev_close) (struct sr_dev_inst *sdi);
int (*dev_acquisition_start) (const struct sr_dev_inst *sdi,
void *cb_data);
int (*dev_acquisition_stop) (struct sr_dev_inst *sdi,
void *cb_data);
/* Dynamic */
void *priv;
};
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struct sr_session {
/** List of struct sr_dev pointers. */
GSList *devs;
/** List of sr_receive_data_callback_t items. */
GSList *datafeed_callbacks;
GTimeVal starttime;
unsigned int num_sources;
/*
* Both "sources" and "pollfds" are of the same size and contain pairs
* of descriptor and callback function. We can not embed the GPollFD
* into the source struct since we want to be able to pass the array
* of all poll descriptors to g_poll().
*/
struct source *sources;
GPollFD *pollfds;
int source_timeout;
};
#include "proto.h"
#include "version.h"
#ifdef __cplusplus
}
#endif
#endif