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SIGROK-CLI(1) FreeBSD General Commands Manual SIGROK-CLI(1)

sigrok-cli - Command-line client for the sigrok software

sigrok-cli [OPTIONS] [COMMAND]

sigrok-cli is a cross-platform command line utility for the sigrok software.

It cannot display graphical output, but is still sufficient to run through the whole process of hardware initialization, acquisition, protocol decoding and saving the session.

It is useful for running on remote or embedded systems, netbooks, PDAs, and for various other use-cases. It can display samples on standard output or save them in various file formats.

-h, --help
Show a help text and exit.
-V, --version
Show sigrok-cli version and the versions of libraries used.
-L, --list-supported
Show information about supported hardware drivers, input file formats, output file formats, and protocol decoders.
-d, --driver <drivername>
A driver must always be selected (unless doing a global scan). Use the -L (--list-supported) option to get a list of available drivers.

Drivers can take options, in the form key=value separated by colons.

Drivers communicating with hardware via a serial port always need the port specified as the conn option. For example, to use the Openbench Logic Sniffer:

$ sigrok-cli --driver=ols:conn=/dev/ttyACM0 [...]

Some USB devices don't use a unique VendorID/ProductID combination, and thus need that specified as well. This also uses the conn option, using either VendorID.ProductID or bus.address:

USB VendorID.ProductID example:

$ sigrok-cli --driver=uni-t-ut61e:conn=1a86.e008 [...]

USB bus.address example:

$ sigrok-cli --driver=uni-t-ut61e:conn=4.6 [...]

-c, --config <deviceoption>
A colon-separated list of device options, where each option takes the form key=value. For example, to set the samplerate to 1MHz on a device supported by the fx2lafw driver, you might specify

$ sigrok-cli -d fx2lafw --config samplerate=1m [...]

Samplerate is an option common to most logic analyzers. The argument specifies the samplerate in Hz. You can also specify the samplerate in kHz, MHz or GHz. The following are all equivalent:

$ sigrok-cli -d fx2lafw --config samplerate=1000000 [...]

$ sigrok-cli -d fx2lafw --config samplerate=1m [...]

$ sigrok-cli -d fx2lafw --config "samplerate=1 MHz" [...]

-i, --input-file <filename>
Load input from a file instead of a hardware device. You can specify "-" to use stdin as input. If the --input-format option is not supplied, sigrok-cli attempts to autodetect the file format of the input file.

Example for loading a sigrok session file:

$ sigrok-cli -i example.sr [...]

Example for loading a WAV file (autodetection of input format):

$ sigrok-cli -i example.wav [...]

Example for loading a VCD file from stdin (autodetection of input format):

$ cat example.vcd | sigrok-cli -i - [...]

-I, --input-format <format>
When loading an input file, assume it's in the specified format. If this option is not supplied (in addition to --input-file), sigrok-cli attempts to autodetect the file format of the input file. Use the -L (--list-supported) option to see a list of available input formats.

The format name may optionally be followed by a colon-separated list of options, where each option takes the form key=value.

Example for loading a binary file with options:

$ sigrok-cli -i example.bin
-I binary:numchannels=4:samplerate=1mhz [...]

-o, --output-file <filename>
Save output to a file instead of writing it to stdout. The default format used when saving is the sigrok session file format. This can be changed with the --output-format option.

Example for saving data in the sigrok session format:

$ sigrok-cli [...] -o example.sr

-O, --output-format <format>
Set the output format to use. Use the -L (--list-supported) option to see a list of available output formats.

The format name may optionally be followed by a colon-separated list of options, where each option takes the form key=value.

For example, the bits or hex formats, for an ASCII bit or ASCII hexadecimal display, can take a "width" option, specifying the number of samples (in bits) to display per line. Thus -O hex:width=128 will display 128 bits per line, in hexadecimal:

0:ffff ffff ffff ffff ffff ffff ffff ffff 1:ff00 ff00 ff00 ff00 ff00 ff00 ff00 ff00

The lines always start with the channel number (or name, if defined), followed by a colon. If no format is specified, it defaults to bits:width=64, like this:

0:11111111 11111111 11111111 11111111 [...] 1:11111111 00000000 11111111 00000000 [...]

Example for saving data in the CSV format with options:

$ sigrok-cli [...] -o example.csv -O csv:dedup:header=false

Notice that boolean options are true when no value gets specified.

-C, --channels <channellist>
A comma-separated list of channels to be used in the session.

Note that sigrok always names the channels according to how they're shown on the enclosure of the hardware. If your logic analyzer numbers the channels 0-15, that's how you must specify them with this option. An oscilloscope's channels would generally be referred to as "CH1", "CH2", and so on. Use the --show option to see a list of channel names for your device.

The default is to use all the channels available on a device. You can name a channel like this: 1=CLK. A range of channels can also be given, in the form 1-5.

Example:

$ sigrok-cli --driver fx2lafw --samples 100
--channels 1=CLK,2-4,7 CLK:11111111 11111111 11111111 11111111 [...] 2:11111111 11111111 11111111 11111111 [...] 3:11111111 11111111 11111111 11111111 [...] 4:11111111 11111111 11111111 11111111 [...] 7:11111111 11111111 11111111 11111111 [...]

The comma-separated list is processed from left to right, i.e. items farther to the right override previous items. For example 1=CS,CS=MISO will set the name of channel 1 to MISO.

-g, --channel-group <channel group>
Specify the channel group to operate on. Some devices organize channels into groups, the settings of which can only be changed as a group. The list of channel groups, if any, is displayed with the --show command.

Examples:

$ sigrok-cli -g CH1 [...]

$ sigrok-cli -d demo -g Logic -c pattern=graycode [...]

-t, --triggers <triggerlist>
A comma-separated list of triggers to use, of the form <channel>=<trigger>. You can use the name or number of the channel, and the trigger itself is a series of characters:

0 or 1: A low or high value on the pin.
r or f: A rising or falling value on the pin. An r effectively corresponds to 01.
e: Any kind of change on a pin (either a rising or a falling edge).

Not every device supports all of these trigger types. Use the --show command to see which triggers your device supports.

-w, --wait-trigger
Don't output any sample data (even if it's actually received from the hardware) before the trigger condition is met. In other words, do not output any pre-trigger data. This option is useful if you don't care about the data that came before the trigger (but the hardware delivers this data to sigrok nonetheless).
-P, --protocol-decoders <list>
This option allows the user to specify a comma-separated list of protocol decoders to be used in this session. The decoders are specified by their ID, as shown in the -L (--list-supported) output.

Example:

$ sigrok-cli -i <file.sr> -P i2c

Each protocol decoder can optionally be followed by a colon-separated list of options, where each option takes the form key=value.

Example:

$ sigrok-cli -i <file.sr>
-P uart:baudrate=115200:parity_type=odd

The list of supported options depends entirely on the protocol decoder. Every protocol decoder has different options it supports.

Any "options" specified for a protocol decoder which are not actually supported options, will be interpreted as being channel name/number assignments.

Example:

$ sigrok-cli -i <file.sr>
-P spi:wordsize=9:miso=1:mosi=5:clk=3:cs=0

In this example, wordsize is an option supported by the spi protocol decoder. Additionally, the user tells sigrok to decode the SPI protocol using channel 1 as MISO signal for SPI, channel 5 as MOSI, channel 3 as CLK, and channel 0 as CS# signal.

Notice that the sigrok-cli application does not support "name matching". Instead it's assumed that the traces in the input stream match the order of the decoder's input signals, or that users explicitly specify the input channel to decoder signal mapping.

When multiple decoders are specified in the same -P option, they will be stacked on top of each other in the specified order.

Example:

$ sigrok-cli -i <file.sr> -P i2c,eeprom24xx $ sigrok-cli -i <file.sr> -P uart:baudrate=31250,midi

When multiple -P options are specified, each of them creates one decoder stack, which executes in parallel to other decoder stacks.

Example:

$ sigrok-cli -i <file.sr> -P uart:tx=D0:rx=D1 -P timing:data=D2

-A, --protocol-decoder-annotations <annotations>
By default, only the stack's topmost protocol decoder's annotation output is shown. With this option another decoder's annotation can be selected for display, by specifying its ID:

$ sigrok-cli -i <file.sr> -P i2c,i2cfilter,edid -A i2c

If a protocol decoder has multiple annotations, you can also specify which one of them to show by specifying its short description like this:

$ sigrok-cli -i <file.sr> -P i2c,i2cfilter,edid
-A i2c=data-read

Select multiple annotations by separating them with a colon:

$ sigrok-cli -i <file.sr> -P i2c,i2cfilter,edid
-A i2c=data-read:data-write

You can also select multiple protocol decoders, with an optional selected annotation each, by separating them with commas:

$ sigrok-cli -i <file.sr> -P i2c,i2cfilter,edid
-A i2c=data-read:data-write,edid

-M, --protocol-decoder-meta <pdname>
When given, show protocol decoder meta output instead of annotations. The argument is the name of the decoder whose meta output to show.

$ sigrok-cli -i <file.sr> -M i2c

Not every decoder generates meta output.

-B, --protocol-decoder-binary <binaryspec>
When given, decoder "raw" data of various kinds is written to stdout instead of annotations (this could be raw binary UART/SPI bytes, or WAV files, PCAP files, PNG files, or anything else; this is entirely dependent on the decoder and what kinds of binary output make sense for that decoder).

No other information is printed to stdout, so this is suitable for piping into other programs or saving to a file.

Protocol decoders that support binary output publish a list of binary classes, for example the UART decoder might have "TX" and "RX". To select TX for output, the argument to this option would be:

$ sigrok-cli -i <file.sr> -B uart=tx

If only the protocol decoder is specified, without binary class, all classes are written to stdout:

$ sigrok-cli -i <file.sr> -B uart

(this is only useful in rare cases, generally you would specify a certain binary class you're interested in)

Not every decoder generates binary output.

--protocol-decoder-samplenum
When given, decoder annotations will include sample numbers, too. This allows consumers to receive machine readable timing information.
-l, --loglevel <level>
Set the libsigrok and libsigrokdecode loglevel. At the moment sigrok-cli doesn't support setting the two loglevels independently. The higher the number, the more debug output will be printed. Valid loglevels are:

0 None
1 Error
2 Warnings
3 Informational
4 Debug
5 Spew

--show

Show information about the selected option. For example, to see options for a connected fx2lafw device:

$ sigrok-cli --driver fx2lafw --show

In order to properly get device options for your hardware, some drivers might need a serial port specified:

$ sigrok-cli --driver ols:conn=/dev/ttyACM0 --show

This also works for protocol decoders, input modules and output modules:

$ sigrok-cli --protocol-decoders i2c --show $ sigrok-cli --input-format csv --show $ sigrok-cli --output-format bits --show

--scan
Scan for devices that can be detected automatically.

Example:

$ sigrok-cli --scan The following devices were found: demo - Demo device with 12 channels: D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3 fx2lafw:conn=3.26 - CWAV USBee SX with 8 channels: 0 1 2 3 4 5 6 7

However, not all devices are auto-detectable (e.g. serial port based ones). For those you'll have to provide a conn option, see above.

$ sigrok-cli --driver digitek-dt4000zc:conn=/dev/ttyUSB0 --scan The following devices were found: Digitek DT4000ZC with 1 channel: P1

--time <ms>
Sample for <ms> milliseconds, then quit.

You can optionally follow the number by s to specify the time to sample in seconds.

For example, --time 2s will sample for two seconds.

--samples <numsamples>
Acquire <numsamples> samples, then quit.

You can optionally follow the number by k, m, or g to specify the number of samples in kilosamples, megasamples, or gigasamples, respectively.

For example, --samples 3m will acquire 3000000 samples.

--frames <numframes>
Acquire <numframes> frames, then quit.
--continuous
Sample continuously until stopped. Not all devices support this.
--get <variable>
Get the value of <variable> from the specified device and print it.
--set
Set one or more variables specified with the --config option, without doing any acquisition.

In order to get exactly 100 samples from the connected fx2lafw-supported logic analyzer hardware, run the following command:
sigrok-cli --driver fx2lafw --samples 100
If you want to sample data for 3 seconds (3000 ms), use:
sigrok-cli --driver fx2lafw --time 3000
Alternatively, you can also use:
sigrok-cli --driver fx2lafw --time 3s
To capture data from the first 4 channels using the Openbench Logic Sniffer lasting 100ms at 10 MHz starting at the trigger condition
0:high, 1:rising, 2:low, 3:high, use:
sigrok-cli --driver ols:conn=/dev/ttyACM0 --config samplerate=10m \
--output-format bits --channels 0-3 --wait-trigger \
--triggers 0=1,1=r,2=0,3=1 --time 100
    
To turn on internal logging on a Lascar EL-USB series device:
sigrok-cli --driver lascar-el-usb:conn=10c4.0002 \
--config datalog=on --set
    

sigrok-cli exits with 0 on success, 1 on most failures.

pulseview(1)

Please report any bugs via Bugzilla (http://sigrok.org/bugzilla) or on the sigrok-devel mailing list (sigrok-devel@lists.souceforge.net).

sigrok-cli is covered by the GNU General Public License (GPL). Some portions are licensed under the "GPL v2 or later", some under "GPL v3 or later".

Please see the individual source code files.

This manual page was written by Uwe Hermann <uwe@hermann-uwe.de>. It is licensed under the terms of the GNU GPL (version 2 or later).

October 22, 2018

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