redhawk
mlat-server
redhawk | mlat-server | |
---|---|---|
2 | 2 | |
411 | 69 | |
1.2% | - | |
0.9 | 10.0 | |
12 months ago | over 6 years ago | |
Python | ||
GNU General Public License v3.0 or later | GNU Affero General Public License v3.0 |
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redhawk
- Redhawk: Software-defined radio (SDR) framework open sourced by NSA
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GNU Radio
There's a similar SDR toolkit out there called RedHawk. Its open source but heavily funded by the NSA so you can imagine that it has specific SIGINT applications in mind. However, you can still connect it to an RTL-SDR and play around with the components in a similar manner.
https://github.com/RedhawkSDR/redhawk
mlat-server
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GNU Radio
I would suggest not starting in the 2.4GHz band, the protocols used there (wifi, bluetooth) are very complicated to understand. Get a rtl-sdr and start with something simpler: FM broadcast (my blogpost: https://www.abclinuxu.cz/blog/jenda/2019/11/gnu-radio-first-..., there is even an example capture you can download and replay, so you can start even without the physical radio), police radio (both analog and digital), radiosondes, weather satellites, ISM stuff - temperature sensors, garage and car remote controls, airplane multilateration (https://github.com/mutability/mlat-server)… You can do lot of stuff even with the $10 rtl-sdr, for example I have used it for multilaterating TV and radio transmitters (thesis: https://jenda.hrach.eu/dipl.pdf, unfortunately "layman's explanation" is available only as a lecture in Czech). I know people are even building radioastronomy stuff and passive radars (https://www.rtl-sdr.com/passive-radar-dual-coherent-channel-...) with rtl-sdr.
Once you have basic understanding of the topic, you can get better hardware: AirSpy (the same features as rtl-sdr, but MUCH better signal-to-noise ratio and bandwidth) or bladeRF (costly, but probably the best radio you can get now). For example I'm now building a weather radar based on bladeRF. The bladeRF has a FPGA with open-source HDL, so you can mess even with absolutely lowlevel and bleeding edge stuff.
Going back to your original question:
Most cards load firmware from a file when they are initializing (check "dmesg|grep firmware", on my machine, for example, it says it has loaded /lib/firmware/rtl_nic/rtl8153b-2.fw), you are free to modify it. However, all (or maybe almost all) wifi cards have the format of the blob completely undocumented so it would be very hard to make a modification that would allow you to transmit/receive arbitrary signals. Something similar has been achieved with GSM phones (see OsmocomBB), but it requires very complicated reverse-engineering.
Recently, there was a wifi stack released for a SDR, so the other way around: https://www.nuand.com/bladeRF-wiphy/.
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MLAT Server Help
I got the code from https://github.com/mutability/mlat-server does anyone know how to get it up and running any assistance would be much appreciated and extremely helpful :)
What are some alternatives?
gnuradio - GNU Radio – the Free and Open Software Radio Ecosystem
rpitx - RF transmitter for Raspberry Pi
mobisys2018_nexmon_software_defined_radio - Proof of concept project for operating Broadcom Wi-Fi chips as arbitrary signal transmitters similar to software-defined radios (SDRs)
open-ath9k-htc-firmware - The firmware for QCA AR7010/AR9271 802.11n USB NICs
sverchok - Sverchok
carl9170fw - CARL9170 Firmware Source Repository