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Changes for page Radio Log

Last modified by Treyfane Dingo on 2025/04/27 13:33
From version 25.2
edited by Treyfane Dingo
on 2025/04/07 22:12
Change comment: There is no comment for this version
To version 21.6
edited by Treyfane Dingo
on 2025/04/07 21:40
Change comment: There is no comment for this version

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1 1  (% data-widget="image" contenteditable="false" tabindex="-1" %)[[image:radiolog1.png]](% title="Click and drag to resize" %)​
2 2  
3 3  
4 -The **Radio Log** is a module, which can be called by pressing F8 anywhere in L.A.S.S.I.E.. It will be available if L.A.S.S.I.E. is connected to a [[Pi-Star>>https://www.pistar.uk/]] with [[pistarlog2ws>>https://git.furcom.org/Dingo/pistarlog2ws]] installed (green antenna symbol) and subsequently show the DMR radio traffic.
4 +The Radio Log is a module, which can be called by pressing F8 anywhere in L.A.S.S.I.E.. It will be available if L.A.S.S.I.E. is connected to a [[Pi-Star>>https://www.pistar.uk/]] with [[pistarlog2ws>>https://git.furcom.org/Dingo/pistarlog2ws]] installed (green antenna symbol) and subsequently show the DMR radio traffic.
5 5  
6 -= Pi-Star Preparation =
6 += Pi-Star =
7 7  
8 8  == OS Installation ==
9 9  
10 -Pi-Star has to be installed on a Raspberry Pi (Zero) with a MMDVM HAT. A non-duplex MMDVM HAT is fully sufficient since Pi-Star only can monitor one single frequency and sending is not something this setup is expected to do. See [[https:~~/~~/www.pistar.uk/downloads/>>https://www.pistar.uk/downloads/]] for image download and installation instructions.
10 +Pi-Star has to be installed on a Raspberry Pi (Zero) with a MMDVM HAT. A non-duplex MMDVM HAT is fully sufficient since Pi-Star only can monitor one single frequency and sending is not something this setup is expected to do. See [[https:~~/~~/www.pistar.uk/downloads/>>https://www.pistar.uk/downloads/]] for download and installation instructions.
11 11  
12 12  The SD card for the Raspberry Pi will be flashed using [[Raspberry Pi Imager>>https://www.raspberrypi.com/software/]]. During the process, you will be asked if you like to apply OS customization settings. You can change the //hostname//, //wireless LAN// and //locale settings// here. **Do not set username and password, or anything in the Services or Options tab!**
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28 28  
29 29  [[image:radiolog_cfg1.png]]
30 30  
31 -After enabling the DMR Mode in the “MMDVMHost Configuration” section, you should head over to “Expert” → “MMDVMHost” in the top menu. Here it is imperative to set Enable = 0 in the DMR Network section (**not** the DMR” section!). This will disable all DMR networking. We don't want to have the Radio Log Pi-Star send out our private DMR communication to the world after all.
31 +After enabling the DMR Mode in the “MMDVMHost Configuration” section, you should head over to “Expert” → “MMDVMHost” in the top menu. Here it is imperative to set Enable = 0 in the DMR Network section (not the DM
32 32  
33 33  [[image:radiolog_cfg2b.png]]
34 34  
35 -As an additional information, the OLED display of a Raspberry Pi Zero can be configured to face the right direction and show some useful information, when the parameters in the “OLED” section are set as follows. This is especially useful if your OLED until now is just black.
35 +In the “DMR Configuration section it is imperative to disable all three Networks. We don't want to have the Radio Log Pi-Star send out our private DMR communication to the world after all.
36 36  
37 -[[image:radiolog_cfg2c.png]]
37 +[[image:radiolog_cfg3.png]]
38 38  
39 -Back on the regular configuration page, in the “Wireless Configuration”, the IP address of the Pi-Star acquired by DHCP is shown. This IP address has to be configured as “IP for a FurCom Services Radio Log system” in L.A.S.S.I.E. (System Settings → General Settings).
39 +In the “Wireless Configuration”, the IP address of the Pi-Star acquired by DHCP is shown. This IP address has to be configured as “IP for a FurCom Services Radio Log system” in L.A.S.S.I.E. (System Settings → General Settings).
40 40  
41 41  [[image:radiolog_cfg4.png]]
42 42  
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44 44  
45 45  [[image:radiolog_cfg5.png]]
46 46  
47 -You also should run an Update of the Pi-Star using the “Configuration” → “Update” page.
48 48  
49 -After all of the configuration, the “Dashboard” of the Pi-Star should look like this (frequency may vary):
50 -
51 -[[image:radiolog_cfg6.png]]
52 -
53 -= Installing pistarlog2ws =
54 -
55 -The pistarlog2ws repository can be found at the [[FURCOM GIT>>https://git.furcom.org/Dingo/pistarlog2ws]]. To install it, you have to connect to the Pi-Star via ssh.
56 -
57 -//Pi-Star's disk is read-only by default, so you have to enable read-write with “rpi-rw”.//
58 -
59 -Clone the repository into the pi-star home and run the install script:
60 -
61 -{{{rpi-rw
62 -git clone https://git.furcom.org/dingo/pistarlog2ws
63 -cd pistarlog2ws
64 -./install.sh
65 -}}}
66 -
67 -This should install and enable the websocket service and make the necessary adjustments to the firewall.
68 -
69 -== Test ==
70 -
71 -You can test the installation from another machine in the network using “nc” or “wscat”.
72 -
73 -{{{nc -zv <IP-ADDRESS OF PI-STAR> 8765
74 -}}}
75 -
76 -{{{wscat -c ws://<IP-ADDRESS OF PI-STAR>:8765 --no-color}}}
77 -
78 -= DMR ID Naming =
79 -
80 -To have the readable nickname in the Radio Log rather than the DMR ID, the respective Radio has to be handed out to the Operative via the Personal Assets Database. The DMR ID has to be set
81 -
82 -[[image:radiolog_asset.png]]
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