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Copyright 2012 Free Software Foundation, Inc.
This file is part of GNU Radio
GNU Radio Companion 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 2
of the License, or (at your option) any later version.
GNU Radio Companion is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
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, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
MAIN_TMPL = """\
id: ${prefix}_${sourk}
label: '${title} ${sourk.title()}'
category: '[OsmoSDR]'
flags: throttle
- id: type
label: '${direction.title()}put Type'
dtype: enum
options: [fc32]
option_labels: [Complex Float32]
type: [fc32]
hide: part
- id: args
label: 'Device Arguments'
dtype: string
default: '""'
hide: ${'$'}{ 'none' if args else 'part'}
- id: sync
label: Sync
dtype: enum
options: [sync, pc_clock, none]
option_labels: [Unknown PPS, PC Clock, Don't Sync]
hide: ${'$'}{ 'none' if sync else 'part'}
- id: num_mboards
label: 'Number MBoards'
dtype: int
default: 1
options: [ ${", ".join([str(n) for n in range(1, max_mboards+1)])} ]
hide: part
% for m in range(max_mboards):
- id: clock_source${m}
label: 'MB${m}: Clock Source'
dtype: string
options: ['', internal, external, external_1pps, mimo, gpsdo]
option_labels: [Default, Internal, External, External 1PPS, MIMO Cable, O/B GPSDO]
hide: ${'$'}{ 'all' if not (num_mboards > ${m}) else ( 'none' if clock_source${m} else 'part' )}
- id: time_source${m}
label: 'MB${m}: Time Source'
dtype: string
options: ['', external, mimo, gpsdo]
option_labels: [Default, External, MIMO Cable, O/B GPSDO]
hide: ${'$'}{ 'all' if not (num_mboards > ${m}) else ( 'none' if time_source${m} else 'part' )}
% endfor
- id: nchan
label: 'Number Channels'
dtype: int
default: 1
options: [ ${", ".join([str(n) for n in range(1, max_nchan+1)])} ]
- id: sample_rate
label: 'Sample Rate (sps)'
dtype: real
default: samp_rate
- domain: message
id: command
optional: true
% if sourk == 'source':
% endif
- domain: stream
dtype: ${'$'}{type.type}
multiplicity: ${'$'}{nchan}
% if sourk == 'sink':
- domain: message
id: async_msgs
optional: true
% endif
imports: |-
import osmosdr
import time
make: |
args="numchan=" + str(${'$'}{nchan}) + " " + ${'$'}{args}
% for m in range(max_mboards):
${'%'} if context.get('num_mboards')() > ${m}:
${'%'} if context.get('clock_source${m}')():
self.${'$'}{id}.set_clock_source(${'$'}{${'clock_source' + str(m)}}, ${m})
${'%'} endif
${'%'} if context.get('time_source${m}')():
self.${'$'}{id}.set_time_source(${'$'}{${'time_source' + str(m)}}, ${m})
${'%'} endif
${'%'} endif
% endfor
${'%'} if sync == 'sync':
${'%'} elif sync == 'pc_clock':
self.${'$'}{id}.set_time_now(osmosdr.time_spec_t(time.time()), osmosdr.ALL_MBOARDS)
${'%'} endif
% for n in range(max_nchan):
${'%'} if context.get('nchan')() > ${n}:
self.${'$'}{id}.set_center_freq(${'$'}{${'freq' + str(n)}}, ${n})
self.${'$'}{id}.set_freq_corr(${'$'}{${'corr' + str(n)}}, ${n})
% if sourk == 'source':
self.${'$'}{id}.set_dc_offset_mode(${'$'}{${'dc_offset_mode' + str(n)}}, ${n})
self.${'$'}{id}.set_iq_balance_mode(${'$'}{${'iq_balance_mode' + str(n)}}, ${n})
self.${'$'}{id}.set_gain_mode(${'$'}{${'gain_mode' + str(n)}}, ${n})
% endif
self.${'$'}{id}.set_gain(${'$'}{${'gain' + str(n)}}, ${n})
self.${'$'}{id}.set_if_gain(${'$'}{${'if_gain' + str(n)}}, ${n})
self.${'$'}{id}.set_bb_gain(${'$'}{${'bb_gain' + str(n)}}, ${n})
self.${'$'}{id}.set_antenna(${'$'}{${'ant' + str(n)}}, ${n})
self.${'$'}{id}.set_bandwidth(${'$'}{${'bw' + str(n)}}, ${n})
${'%'} endif
% endfor
- set_sample_rate(${'$'}{sample_rate})
% for n in range(max_nchan):
- set_center_freq(${'$'}{${'freq' + str(n)}}, ${n})
- set_freq_corr(${'$'}{${'corr' + str(n)}}, ${n})
% if sourk == 'source':
- set_dc_offset_mode(${'$'}{${'dc_offset_mode' + str(n)}}, ${n})
- set_iq_balance_mode(${'$'}{${'iq_balance_mode' + str(n)}}, ${n})
- set_gain_mode(${'$'}{${'gain_mode' + str(n)}}, ${n})
% endif
- set_gain(${'$'}{${'gain' + str(n)}}, ${n})
- set_if_gain(${'$'}{${'if_gain' + str(n)}}, ${n})
- set_bb_gain(${'$'}{${'bb_gain' + str(n)}}, ${n})
- set_antenna(${'$'}{${'ant' + str(n)}}, ${n})
- set_bandwidth(${'$'}{${'bw' + str(n)}}, ${n})
% endfor
documentation: |-
The osmocom ${sourk} block:
While primarily being developed for the OsmoSDR hardware, this block as well supports:
% if sourk == 'source':
* sysmocom OsmoSDR Devices through libosmosdr
* RTL2832U based DVB-T dongles through librtlsdr
* RTL-TCP spectrum server (see librtlsdr project)
* MSi2500 based DVB-T dongles through libmirisdr
* SDRplay RSP devices through SDRplay library
* gnuradio .cfile input through libgnuradio-blocks
* RFSPACE SDR-IQ, SDR-IP, NetSDR (incl. X2 option)
* AirSpy Wideband Receiver through libairspy
% endif
% if sourk == 'sink':
* gnuradio .cfile output through libgnuradio-blocks
% endif
* CCCamp 2015 rad1o Badge through libhackrf
* Great Scott Gadgets HackRF through libhackrf
* Nuand LLC bladeRF through libbladeRF library
* Ettus USRP Devices through Ettus UHD library
* Fairwaves UmTRX through Fairwaves' fork of UHD
* Red Pitaya SDR transceiver (
* FreeSRP through libfreesrp library
By using the osmocom $sourk block you can take advantage of a common software api in your application(s) independent of the underlying radio hardware.
Output Type:
This parameter controls the data type of the stream in gnuradio. Only complex float32 samples are supported at the moment.
Device Arguments:
The device argument is a comma delimited string used to locate devices on your system. Device arguments for multiple devices may be given by separating them with a space.
Use the device id or name/serial (if applicable) to specify a certain device or list of devices. If left blank, the first device found will be used.
Optional arguments are placed into [] brackets, remove the brackets before using them! Specific variable values are separated with a |, choose one of them. Variable values containing spaces shall be enclosed in '' as demonstrated in examples section below.
Lines ending with ... mean it's possible to bind devices together by specifying multiple device arguments separated with a space.
% if sourk == 'source':
miri=0[,buffers=32] ...
rtl=serial_number ...
rtl=0[,rtl_xtal=28.8e6][,tuner_xtal=28.8e6] ...
rtl=1[,buffers=32][,buflen=N*512] ...
rtl=2[,direct_samp=0|1|2][,offset_tune=0|1][,bias=0|1] ...
rtl_tcp=[,psize=16384][,direct_samp=0|1|2][,offset_tune=0|1][,bias=0|1] ...
osmosdr=0[,buffers=32][,buflen=N*512] ...
file='/path/to/your file',rate=1e6[,freq=100e6][,repeat=true][,throttle=true] ...
% endif
% if sourk == 'sink':
file='/path/to/your file',rate=1e6[,freq=100e6][,append=true][,throttle=true] ...
% endif
uhd[,serial=...][,lo_offset=0][,mcr=52e6][,nchan=2][,subdev='\\\\'B:0 A:0\\\\''] ...
Num Channels:
Selects the total number of channels in this multi-device configuration. Required when specifying multiple device arguments.
Sample Rate:
The sample rate is the number of samples per second output by this block on each channel.
The center frequency is the frequency the RF chain is tuned to.
Freq. Corr.:
The frequency correction factor in parts per million (ppm). Set to 0 if unknown.
% if sourk == 'source':
DC Offset Mode:
Controls the behavior of hardware DC offset corrrection.
Off: Disable correction algorithm (pass through).
Manual: Keep last estimated correction when switched from Automatic to Manual.
Automatic: Periodicallly find the best solution to compensate for DC offset.
This functionality is available for USRP devices only.
IQ Balance Mode:
Controls the behavior of software IQ imbalance corrrection.
Off: Disable correction algorithm (pass through).
Manual: Keep last estimated correction when switched from Automatic to Manual.
Automatic: Periodicallly find the best solution to compensate for image signals.
This functionality depends on
Gain Mode:
Chooses between the manual (default) and automatic gain mode where appropriate.
To allow manual control of RF/IF/BB gain stages, manual gain mode must be configured.
Currently, only RTL-SDR devices support automatic gain mode.
% endif
RF Gain:
Overall RF gain of the device.
IF Gain:
Overall intermediate frequency gain of the device.
This setting is available for RTL-SDR and OsmoSDR devices with E4000 tuners and HackRF in receive and transmit mode. Observations lead to a reasonable gain range from 15 to 30dB.
BB Gain:
Overall baseband gain of the device.
This setting is available for HackRF in receive mode. Observations lead to a reasonable gain range from 15 to 30dB.
For devices with only one antenna, this may be left blank.
Otherwise, the user should specify one of the possible antenna choices.
Set the bandpass filter on the radio frontend. To use the default (automatic) bandwidth filter setting, this should be zero.
See the OsmoSDR project page for more detailed documentation:
file_format: 1
# MAIN_TMPL = """\
# <block>
# <check>$max_nchan >= \$nchan</check>
# <check>\$nchan > 0</check>
# <check>$max_mboards >= \$num_mboards</check>
# <check>\$num_mboards > 0</check>
# <check>\$nchan >= \$num_mboards</check>
# </block>
# """
- id: freq${n}
label: 'Ch${n}: Frequency (Hz)'
dtype: real
default: 100e6
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
- id: corr${n}
label: 'Ch${n}: Frequency Correction (ppm)'
dtype: real
default: 0
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
% if sourk == 'source':
- id: dc_offset_mode${n}
label: 'Ch${n}: DC Offset Mode'
dtype: int
default: 0
options: [0, 1, 2]
option_labels: [Off, Manual, Automatic]
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
- id: iq_balance_mode${n}
label: 'Ch${n}: IQ Balance Mode'
dtype: int
default: 0
options: [0, 1, 2]
option_labels: [Off, Manual, Automatic]
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
- id: gain_mode${n}
label: 'Ch${n}: Gain Mode'
dtype: bool
default: False
options: [False, True]
option_labels: [Manual, Automatic]
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
% endif
- id: gain${n}
label: 'Ch${n}: RF Gain (dB)'
dtype: real
default: 10
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
- id: if_gain${n}
label: 'Ch${n}: IF Gain (dB)'
dtype: real
default: 20
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
- id: bb_gain${n}
label: 'Ch${n}: BB Gain (dB)'
dtype: real
default: 20
hide: ${'$'}{'none' if (nchan > ${n}) else 'all'}
- id: ant${n}
label: 'Ch${n}: Antenna'
dtype: string
default: ""
hide: ${'$'}{'all' if not (nchan > ${n}) else ('none' if eval('ant' + str(${n})) else 'part')}
- id: bw${n}
label: 'Ch${n}: Bandwidth (Hz)'
dtype: real
default: 0
hide: ${'$'}{'all' if not (nchan > ${n}) else ('none' if eval('bw' + str(${n})) else 'part')}
def parse_tmpl(_tmpl, **kwargs):
from mako.template import Template
from mako import exceptions
block_template = Template(_tmpl)
return str(block_template.render(**kwargs))
import os.path
if __name__ == '__main__':
import sys
for file in sys.argv[1:]:
head, tail = os.path.split(file)
if tail.startswith('rtlsdr'):
title = 'RTL-SDR'
prefix = 'rtlsdr'
elif tail.startswith('osmosdr'):
title = 'osmocom'
prefix = 'osmosdr'
raise Exception("file {} has wrong syntax!".format(tail))
if tail.endswith('source.block.yml'):
sourk = 'source'
direction = 'out'
elif tail.endswith('sink.block.yml'):
sourk = 'sink'
direction = 'in'
raise Exception("is {} a source or sink?".format(file))
params = ''.join([
parse_tmpl(PARAMS_TMPL, n=n, sourk=sourk)
for n in range(MAX_NUM_CHANNELS)
open(file, 'w').write(