CMake 3.13 is not present in older (~2 years old)
Linux distributions and GNU Radio requires min CMake
version 3.8.
All that is needed in order to avoid bumping CMake version
is to not use 'target_link_libraries' in subdirectories.
Here this is done by creating a list of needed
libraries and adding them for linking at the end (like
it was done in gr-osmosdr before porting to GNU Radio 3.8).
One thing that is lost here is 'PRIVATE' statement in case
of FCD libraries linking.
Signed-off-by: Eric Wild <ewild@sysmocom.de>
To allow switching between transmit and receive mode within a single
flow graph, I've followed the model used by the BladeRF: I factored
common code into hackrf_common.cc and hackrf_common.h, and created a
"_devs" map there to keep track of which devices have been previously
opened. Shared pointers are used to track how many source & sink blocks
are using a particular device.
Because some properties (center frequency, sample rate, bandwidth, RF
amplifier state, bias tee) are shared between receive and transmit, the
blocks defer setting these until receiving or transmitting is started.
That way a source and sink can safely use different values for these
properties, and the correct values are set during T/R switching.
Because the HackRF driver and/or hardware does not seem to fully
transmit all samples sent to it, the code adds some silence to the end
of transmissions to ensure all samples are transmitted.
I've also replaced boost with C++11 code where possible.
From: Clayton Smith <argilo@gmail.com>
Signed-off-by: Sylvain Munaut <tnt@246tNt.com>
features:
- gain control for AMP & VGA
- frequency error correction
- automatic baseband filter
- up to 20M sampling rate
limitations:
- no DC offset correction implemented (yet)
- high sampling rates may not work on slow machines
the following TX named gain stages are available:
RF: MGA-81563, switchable 0 or 14dB
IF: MAX2837 VGA, 0 to 47dB in 1dB steps
features:
- gain control for LNA & VGA
- frequency error correction
- automatic baseband filter
- up to 20M sampling rate
limitations:
- no DC offset correction implemented (yet)
- no RX preamplifier control (disabled by default)
- high sampling rates may not work on slow machines