Date   

Re: EA5GVK with Zumspot AMBE Server...

Adam Liette
 

Ok. I didn't know about that part of analog_bridge.ini. What I'm aiming for is to use the AMBE board rather than md380emu and be able to use the DV-Switch mobile app. It was my understanding that using an AMBE device would allow it to work better on D-Star, etc.


From: main@DVSwitch.groups.io <main@DVSwitch.groups.io> on behalf of ve6gcd@... <ve6gcd@...>
Sent: Saturday, February 1, 2020 10:27:54 PM
To: main@DVSwitch.groups.io <main@DVSwitch.groups.io>
Subject: Re: [DVSwitch] EA5GVK with Zumspot AMBE Server...
 
Can you tell me what do you want to do with it on the Pi?

I used the Zum Ambeboard as vocoder hardware for Analog_Bridge. So upon inserting the configured SD card (Ambe Server mode with IP address 192.168.1.230 and port 2460) to the Zum Ambeboard, I plugged the Ethernet data cable to the unit then powered it on. Afterwards, I configured the Analog_Bridge.ini with the following lines:

[DV3000]
address = 192.168.1.230                ; IP address of AMBEServer
rxPort = 2460                                  ; Port of AMBEServer
; address = /dev/ttyUSB0                ; Device of DV3000U on this machine
; baud = 460800                              ; Baud rate of the dongle (230400 or 460800) 
serial = false                                    ; Use serial=true for direct connect or serial=false for AMBEServer  


Re: EA5GVK with Zumspot AMBE Server...

ve6gcd@...
 

Can you tell me what do you want to do with it on the Pi?

I used the Zum Ambeboard as vocoder hardware for Analog_Bridge. So upon inserting the configured SD card (Ambe Server mode with IP address 192.168.1.230 and port 2460) to the Zum Ambeboard, I plugged the Ethernet data cable to the unit then powered it on. Afterwards, I configured the Analog_Bridge.ini with the following lines:

[DV3000]
address = 192.168.1.230                ; IP address of AMBEServer
rxPort = 2460                                  ; Port of AMBEServer
; address = /dev/ttyUSB0                ; Device of DV3000U on this machine
; baud = 460800                              ; Baud rate of the dongle (230400 or 460800) 
serial = false                                    ; Use serial=true for direct connect or serial=false for AMBEServer  


Re: EA5GVK with Zumspot AMBE Server...

Adam Liette
 

I had that part done, but I wasn't sure if there was anything special to do on the Pi. I selected the AMBE device, etc, but wasn't getting anywhere on DMR or other modes.


From: main@DVSwitch.groups.io <main@DVSwitch.groups.io> on behalf of ve6gcd@... <ve6gcd@...>
Sent: Saturday, February 1, 2020 5:26:03 PM
To: main@DVSwitch.groups.io <main@DVSwitch.groups.io>
Subject: Re: [DVSwitch] EA5GVK with Zumspot AMBE Server...
 
I setup one before, you just need to set it up using the configurator in the Zum website. Afterwards you just copy the created file to the included SD card, insert it to the ambeboard and you should be good to go


Re: EA5GVK with Zumspot AMBE Server...

ve6gcd@...
 

I setup one before, you just need to set it up using the configurator in the Zum website. Afterwards you just copy the created file to the included SD card, insert it to the ambeboard and you should be good to go


EA5GVK with Zumspot AMBE Server...

Adam Liette
 

 

Hello all. I’ve seen references to using the various AMBE thumb sticks, but has anyone used the Zumspot AMBE server with their installation of EA5GVK’s image? I have the Zumspot device that works either via the network or USB, but didn’t have any luck when I tried it.

 

Thanks,

Adam, W8FLH

 


Re: Image for Raspberry pi3 with Debian 10 Buster with DVSWICTH SERVER, HBLINK3 AND HBMONITOR.

EA5GVK Joaquin
 

dvlink
dvlink

El jue., 30 ene. 2020 23:38, Jay <jay.n4nqy@...> escribió:
What is the login and password for V8 Virtual machine? 


--

jb   N4NQY


Re: Image for Raspberry pi3 with Debian 10 Buster with DVSWICTH SERVER, HBLINK3 AND HBMONITOR.

Jay
 

What is the login and password for V8 Virtual machine? 


--

jb   N4NQY


Re: MMDVM_Bridge not sending to NXDNGateway

Bill N2WNS
 

AND.... That was easy. working like a champ.


Re: MMDMV_Bridge password

Steve N4IRS
 

I would login to selfcare and set the password. I believe BM wants people to move away from passw0rd so you may want to choose a unique password.

Steve N4IRS

On 1/29/2020 3:31 AM, Phil VK3VB wrote:
Greetings.

I have had a DMR-P25 DVSWITCH running succesfully for a few months.

About a week ago the brandmeister connection dropped off and I am seeing

M: 2020-01-29 06:31:49.848 DMR, Closing DMR Network
M: 2020-01-29 06:31:49.850 DMR, Opening DMR Network
E: 2020-01-29 06:31:59.909 DMR, Login to the master has failed, retrying network
 ...
M: 2020-01-29 06:31:59.911 DMR, Closing DMR Network
M: 2020-01-29 06:31:59.912 DMR, Opening DMR Network
E: 2020-01-29 06:32:09.968 DMR, Login to the master has failed, retrying network

I am told the password is incorrect, but nothing has changed and it is set to "passw0rd" in the MMDVM_Bridge.ini, which is correct for the master.

Any way to capture the connection request string that is being sent so I can see if something weird is going on?

thanks

Phil VK3VB



MMDMV_Bridge password

Phil VK3VB
 

Greetings.

I have had a DMR-P25 DVSWITCH running succesfully for a few months.

About a week ago the brandmeister connection dropped off and I am seeing

M: 2020-01-29 06:31:49.848 DMR, Closing DMR Network
M: 2020-01-29 06:31:49.850 DMR, Opening DMR Network
E: 2020-01-29 06:31:59.909 DMR, Login to the master has failed, retrying network
 ...
M: 2020-01-29 06:31:59.911 DMR, Closing DMR Network
M: 2020-01-29 06:31:59.912 DMR, Opening DMR Network
E: 2020-01-29 06:32:09.968 DMR, Login to the master has failed, retrying network

I am told the password is incorrect, but nothing has changed and it is set to "passw0rd" in the MMDVM_Bridge.ini, which is correct for the master.

Any way to capture the connection request string that is being sent so I can see if something weird is going on?

thanks

Phil VK3VB


Re: MMDVM_Bridge not sending to NXDNGateway

Steve N4IRS
 

Correct

Sent by smoke signal (AT&T)


From: main@DVSwitch.groups.io <main@DVSwitch.groups.io> on behalf of Bill N2WNS <n2wns.radio@...>
Sent: Wednesday, January 29, 2020 7:27:47 AM
To: main@DVSwitch.groups.io <main@DVSwitch.groups.io>
Subject: Re: [DVSwitch] MMDVM_Bridge not sending to NXDNGateway
 
AH... So no analog bridge for this since no transcoding?


Re: MMDVM_Bridge not sending to NXDNGateway

Bill N2WNS
 

AH... So no analog bridge for this since no transcoding?


Re: MMDVM_Bridge not sending to NXDNGateway

Steve N4IRS
 

As I said,
Cross connect TX to RX and RX to TX

[DMR]
Address = 127.0.0.1             ; Address to send AMBE TLV frames to (export)
TXPort = 31015                  ; Port to send AMBE TLV frames to (export)
RXPort = 31014                  ; Port to listen on (import)


[NXDN]
Address = 127.0.0.1             ; Address to send AMBE TLV frames to (export)
TXPort = 31014                  ; Port to send AMBE TLV frames to (export)
RXPort = 31015                  ; Port to listen on (import)

On 1/28/20 9:11 PM, Bill N2WNS wrote:
This is a DMR<->NXDN. I wasn't sure if the MD380 server was needed, so I put it in there anyway. I read it wasn't needed for DMR/NXDN/YSF but I intend on added P25 to the Mix at some point and believed it would be needed then. I mapped out all my ports on paper before putting this in place.

Here is my DVSwtich config :

[DMR]
Address = 127.0.0.1             ; Address to send AMBE TLV frames to (export)
TXPort = 31015                  ; Port to send AMBE TLV frames to (export)
RXPort = 31014                  ; Port to listen on (import)
Slot = 2                        ; Export slot


[NXDN]
Address = 127.0.0.1             ; Address to send AMBE TLV frames to (export)
TXPort = 31017                  ; Port to send AMBE TLV frames to (export)
RXPort = 31016                  ; Port to listen on (import)
FallbackID = 34000            ; In case we can not find a valid DMR id in the da                                                                                               tabase, export this one
NXDNFallbackID  = 34000         ; Use this ID when the input DMR ID is not found                                                                                                in the database
Translate = 31360=31360           ; Translate NXDN TG < -- > DMR TG (bidirection                                                                                               al)
Slot = 2                        ; Export slot


Re: MMDVM_Bridge not sending to NXDNGateway

Bill N2WNS
 

This is a DMR<->NXDN. I wasn't sure if the MD380 server was needed, so I put it in there anyway. I read it wasn't needed for DMR/NXDN/YSF but I intend on added P25 to the Mix at some point and believed it would be needed then. I mapped out all my ports on paper before putting this in place.

Here is my DVSwtich config :

[DMR]
Address = 127.0.0.1             ; Address to send AMBE TLV frames to (export)
TXPort = 31015                  ; Port to send AMBE TLV frames to (export)
RXPort = 31014                  ; Port to listen on (import)
Slot = 2                        ; Export slot


[NXDN]
Address = 127.0.0.1             ; Address to send AMBE TLV frames to (export)
TXPort = 31017                  ; Port to send AMBE TLV frames to (export)
RXPort = 31016                  ; Port to listen on (import)
FallbackID = 34000            ; In case we can not find a valid DMR id in the da                                                                                               tabase, export this one
NXDNFallbackID  = 34000         ; Use this ID when the input DMR ID is not found                                                                                                in the database
Translate = 31360=31360           ; Translate NXDN TG < -- > DMR TG (bidirection                                                                                               al)
Slot = 2                        ; Export slot


Re: MMDVM_Bridge not sending to NXDNGateway

Steve N4IRS
 

Bill,
I'm a little confused. This is a DMR to NXDN bridge? I believe it is based on your first message. You don't need a transcoder to bridge DMR <-> NXDN Here is the flow diagram.

DMR Network <-> MMDVM_Bridge <-> NXDNGateway <-> NXDN Network.

That's it. One copy of MMDVM_Bridge with NXDN and DMR enabled in MMDVM_Bridge.ini
What you want to do is "cross connect" DMR to NXDN in DVSwitch.ini By cross connect, I mean TX Port to RX Port and RX Port to TX Port.

Steve N4IRS

On 1/28/20 8:37 PM, Bill N2WNS wrote:
So in troubleshooting, I came in from the NXDN side and and was able to hit MMDVM_Bridge:

M: 2020-01-29 00:52:16.252 NXDN, received network transmission from N2WNS to TG 31360
M: 2020-01-29 00:52:16.761 DMR, TX state = ON
I: 2020-01-29 00:52:16.761 DMR, Begin TX: src=3134293 rpt=310998 dst=31660 slot=2 cc=1 metadata=N2WNS
M: 2020-01-29 00:52:19.529 NXDN, received network end of transmission, 3.4 seconds
M: 2020-01-29 00:52:19.534 DMR, TX state = OFF, DMR frame count was 55 frames

But there was nothing on the DMR side. This tells me there is something a miss in the RTP traffic. Below are my two analog bridges:

DMR<->Analog:

; Analog_Bridge configuration file.
;   This file should be placed in either /etc or it can be
;   supplied as a path on the Analog_Bridge command line.

; The best way to think of this file is that there are two main sections, the USRP (analog audio) and
; AMBE_AUDIO (compressed audio).  Analog_Bridge will take everything sent to the USRP port and
; encode it for transmission on the AMBE_AUDIO port.  The encoder will use the format defined in ambeMode.
; As you might expect, the reverse direction is defined too.

; Analog_Bridge supports include files. More on this later...
include = dvsm.macro
; include = asl.macro

; General Section describes settings for Analog_Bridge itself.
[GENERAL]
logLevel = 2                            ; Show messages and above 0=No logging, 1=Debug, 2=Message, 3=Info, 4=Warning, 5=Error, 6=Fatal

; Metadata management
subscriberFile = /var/lib/dvswitch/subscriber_ids.csv   ; DMR ID to callsign lookup data
exportMetadata = true                   ; Export metadata to USRP partner (transcode setups require this)

; General vocoder setup information
decoderFallBack = true                  ; Allow software AMBE decoding if a hardware decoder is not found
useEmulator = False                     ; Use the MD380 AMBE emulator for AMBE72 (DMR/YSFN/NXDN)
emulatorAddress = 127.0.0.1:2473        ; IP address and port of the md380 server

; Information for xx_Bridge (Where xx is MMDVM, Quantar, HB, IPSC)
[AMBE_AUDIO]
address = 127.0.0.1                     ; IP address of xx_Bridge
txPort = 31014                          ; Transmit TLV frames to partner on this port
rxPort = 31015                          ; Listen for TLV frames from partner on this port
ambeMode = DMR                          ; DMR, DMR_IPSC, DSTAR, NXDN, P25, YSFN, YSFW (encode PCM to this format)
minTxTimeMS = 2500                      ; Minimum time in MS for hang delay (0-10000)

; The metadata below is used when ASL is the source since it does not have any concept of digital modes
gatewayDmrId = 3101883                        ; ID to use when transmitting from Analog_Bridge
repeaterID = 310998                          ; ID of source repeater
txTg = 31660                                ; TG to use for all frames sent from Analog_Bridge -> xx_Bridge
txTs = 2                                ; Slot to use for frames sent from Analog_Bridge -> xx_Bridge
colorCode = 1                           ; Color Code to assign DMR frames

; Information for USRP channel driver.  This interface uses PCM to transfer audio information
; There are two typical configurations, ASL and Transcode.  ASL (AllstarLink) is for analog clients connected
; to a digital network.  Transcode is when Analog_Bridge actually points its PCM interfaces back at itself,
; causing a TLV <-- (pcm <--> pcm) --> TLV type of architecture.
;   When using ASL, this matches the rpt.conf ASL file with a setting like:
;   rxchannel = usrp/127.0.0.1:34001:32001
;   When Transcoding, make two ini files and set txPort equal to the other instance rxPort (crossover).  Launch
;   each instance with its own ini file.
[USRP]
address = 127.0.0.1                     ; IP address of USRP partner (Allstar/Asterisk or another Analog_Bridge)
txPort = 32013                          ; Transmit USRP frames on this port
rxPort = 34013                          ; Listen for USRP frames on this port
usrpAudio = AUDIO_UNITY                 ; Audio to ASL (AUDIO_UNITY, AUDIO_USE_AGC, AUDIO_USE_GAIN)
usrpGain = 1.10                         ; Gain (in db) of the AGC filter
tlvAudio = AUDIO_UNITY                  ; Audio from ASL (AUDIO_UNITY, AUDIO_USE_GAIN, AUDIO_BPF)
tlvGain = 0.35                          ; Gain factor of audio from ASL (0.0-1.0)

[MACROS]

; Where the macros are
; xxxx=yyyy
; xxxx is the dial string to match
; yyyy is the command line to execute

; xxxx must be preceded by a *
; xxxx can be any string (alphanumeric)
; yyyy is the command to execute
; yyyy will replace xxxx in the dial string
; arguments follow the macro name with a # delimiter

; For example using macro "5678" above would look like:
; *5678#9876

; Which would invoke:
; echo 9876

; Information for DV3000 hardware decoder
;   There are two configuration modes: IP (AMBEServer) and serial (direct connect hardware)
;   Use top server and port if using AMBEServer
;   Use bottom server/port and serial = true if using the DV3000u (thumbdv)
;   Did you run AMBETest4.py before using this?
[DV3000]
address = 127.0.0.1                   ; IP address of AMBEServer
rxPort = 2460                         ; Port of AMBEServer
; address = /dev/ttyUSB0              ; Device of DV3000U on this machine
; baud = 460800                       ; Baud rate of the dongle (230400 or 460800)
; serial = true                       ; Use serial=true for direct connect or serial=false for AMBEServer


Analog<->NXDN:

; Analog_Bridge configuration file.
;   This file should be placed in either /etc or it can be
;   supplied as a path on the Analog_Bridge command line.

; The best way to think of this file is that there are two main sections, the USRP (analog audio) and
; AMBE_AUDIO (compressed audio).  Analog_Bridge will take everything sent to the USRP port and
; encode it for transmission on the AMBE_AUDIO port.  The encoder will use the format defined in ambeMode.
; As you might expect, the reverse direction is defined too.

; Analog_Bridge supports include files. More on this later...
include = dvsm.macro
; include = asl.macro

; General Section describes settings for Analog_Bridge itself.
[GENERAL]
logLevel = 2                            ; Show messages and above 0=No logging, 1=Debug, 2=Message, 3=Info, 4=Warning, 5=Error, 6=Fatal

; Metadata management
subscriberFile = /var/lib/dvswitch/subscriber_ids.csv   ; DMR ID to callsign lookup data
exportMetadata = true                   ; Export metadata to USRP partner (transcode setups require this)

; General vocoder setup information
decoderFallBack = true                  ; Allow software AMBE decoding if a hardware decoder is not found
useEmulator = false                     ; Use the MD380 AMBE emulator for AMBE72 (DMR/YSFN/NXDN)
emulatorAddress = 127.0.0.1:2473        ; IP address and port of the md380 server

; Information for xx_Bridge (Where xx is MMDVM, Quantar, HB, IPSC)
[AMBE_AUDIO]
address = 127.0.0.1                     ; IP address of xx_Bridge
txPort = 31016                          ; Transmit TLV frames to partner on this port
rxPort = 31017                          ; Listen for TLV frames from partner on this port
ambeMode = NXDN                          ; DMR, DMR_IPSC, DSTAR, NXDN, P25, YSFN, YSFW (encode PCM to this format)
minTxTimeMS = 2500                      ; Minimum time in MS for hang delay (0-10000)

; The metadata below is used when ASL is the source since it does not have any concept of digital modes
gatewayDmrId = 3101883                         ; ID to use when transmitting from Analog_Bridge
repeaterID = 310998                          ; ID of source repeater
txTg = 31660                                ; TG to use for all frames sent from Analog_Bridge -> xx_Bridge
txTs = 2                                ; Slot to use for frames sent from Analog_Bridge -> xx_Bridge
colorCode = 1                           ; Color Code to assign DMR frames

; Information for USRP channel driver.  This interface uses PCM to transfer audio information
; There are two typical configurations, ASL and Transcode.  ASL (AllstarLink) is for analog clients connected
; to a digital network.  Transcode is when Analog_Bridge actually points its PCM interfaces back at itself,
; causing a TLV <-- (pcm <--> pcm) --> TLV type of architecture.
;   When using ASL, this matches the rpt.conf ASL file with a setting like:
;   rxchannel = usrp/127.0.0.1:34001:32001
;   When Transcoding, make two ini files and set txPort equal to the other instance rxPort (crossover).  Launch
;   each instance with its own ini file.
[USRP]
address = 127.0.0.1                     ; IP address of USRP partner (Allstar/Asterisk or another Analog_Bridge)
txPort = 34013                          ; Transmit USRP frames on this port
rxPort = 32013                          ; Listen for USRP frames on this port
usrpAudio = AUDIO_UNITY                 ; Audio to ASL (AUDIO_UNITY, AUDIO_USE_AGC, AUDIO_USE_GAIN)
usrpGain = 1.10                         ; Gain (in db) of the AGC filter
tlvAudio = AUDIO_UNITY                  ; Audio from ASL (AUDIO_UNITY, AUDIO_USE_GAIN, AUDIO_BPF)
tlvGain = 0.35                          ; Gain factor of audio from ASL (0.0-1.0)

[MACROS]

; Where the macros are
; xxxx=yyyy
; xxxx is the dial string to match
; yyyy is the command line to execute

; xxxx must be preceded by a *
; xxxx can be any string (alphanumeric)
; yyyy is the command to execute
; yyyy will replace xxxx in the dial string
; arguments follow the macro name with a # delimiter

; For example using macro "5678" above would look like:
; *5678#9876

; Which would invoke:
; echo 9876

; Information for DV3000 hardware decoder
;   There are two configuration modes: IP (AMBEServer) and serial (direct connect hardware)
;   Use top server and port if using AMBEServer
;   Use bottom server/port and serial = true if using the DV3000u (thumbdv)
;   Did you run AMBETest4.py before using this?
[DV3000]
address = 127.0.0.1                   ; IP address of AMBEServer
rxPort = 2460                         ; Port of AMBEServer
; address = /dev/ttyUSB0              ; Device of DV3000U on this machine
; baud = 460800                       ; Baud rate of the dongle (230400 or 460800)
; serial = true                       ; Use serial=true for direct connect or serial=false for AMBEServer

I'm running one instance of the MD380 server.

Am I missing something here?


Re: MMDVM_Bridge not sending to NXDNGateway

Bill N2WNS
 

So in troubleshooting, I came in from the NXDN side and and was able to hit MMDVM_Bridge:

M: 2020-01-29 00:52:16.252 NXDN, received network transmission from N2WNS to TG 31360
M: 2020-01-29 00:52:16.761 DMR, TX state = ON
I: 2020-01-29 00:52:16.761 DMR, Begin TX: src=3134293 rpt=310998 dst=31660 slot=2 cc=1 metadata=N2WNS
M: 2020-01-29 00:52:19.529 NXDN, received network end of transmission, 3.4 seconds
M: 2020-01-29 00:52:19.534 DMR, TX state = OFF, DMR frame count was 55 frames

But there was nothing on the DMR side. This tells me there is something a miss in the RTP traffic. Below are my two analog bridges:

DMR<->Analog:

; Analog_Bridge configuration file.
;   This file should be placed in either /etc or it can be
;   supplied as a path on the Analog_Bridge command line.

; The best way to think of this file is that there are two main sections, the USRP (analog audio) and
; AMBE_AUDIO (compressed audio).  Analog_Bridge will take everything sent to the USRP port and
; encode it for transmission on the AMBE_AUDIO port.  The encoder will use the format defined in ambeMode.
; As you might expect, the reverse direction is defined too.

; Analog_Bridge supports include files. More on this later...
include = dvsm.macro
; include = asl.macro

; General Section describes settings for Analog_Bridge itself.
[GENERAL]
logLevel = 2                            ; Show messages and above 0=No logging, 1=Debug, 2=Message, 3=Info, 4=Warning, 5=Error, 6=Fatal

; Metadata management
subscriberFile = /var/lib/dvswitch/subscriber_ids.csv   ; DMR ID to callsign lookup data
exportMetadata = true                   ; Export metadata to USRP partner (transcode setups require this)

; General vocoder setup information
decoderFallBack = true                  ; Allow software AMBE decoding if a hardware decoder is not found
useEmulator = False                     ; Use the MD380 AMBE emulator for AMBE72 (DMR/YSFN/NXDN)
emulatorAddress = 127.0.0.1:2473        ; IP address and port of the md380 server

; Information for xx_Bridge (Where xx is MMDVM, Quantar, HB, IPSC)
[AMBE_AUDIO]
address = 127.0.0.1                     ; IP address of xx_Bridge
txPort = 31014                          ; Transmit TLV frames to partner on this port
rxPort = 31015                          ; Listen for TLV frames from partner on this port
ambeMode = DMR                          ; DMR, DMR_IPSC, DSTAR, NXDN, P25, YSFN, YSFW (encode PCM to this format)
minTxTimeMS = 2500                      ; Minimum time in MS for hang delay (0-10000)

; The metadata below is used when ASL is the source since it does not have any concept of digital modes
gatewayDmrId = 3101883                        ; ID to use when transmitting from Analog_Bridge
repeaterID = 310998                          ; ID of source repeater
txTg = 31660                                ; TG to use for all frames sent from Analog_Bridge -> xx_Bridge
txTs = 2                                ; Slot to use for frames sent from Analog_Bridge -> xx_Bridge
colorCode = 1                           ; Color Code to assign DMR frames

; Information for USRP channel driver.  This interface uses PCM to transfer audio information
; There are two typical configurations, ASL and Transcode.  ASL (AllstarLink) is for analog clients connected
; to a digital network.  Transcode is when Analog_Bridge actually points its PCM interfaces back at itself,
; causing a TLV <-- (pcm <--> pcm) --> TLV type of architecture.
;   When using ASL, this matches the rpt.conf ASL file with a setting like:
;   rxchannel = usrp/127.0.0.1:34001:32001
;   When Transcoding, make two ini files and set txPort equal to the other instance rxPort (crossover).  Launch
;   each instance with its own ini file.
[USRP]
address = 127.0.0.1                     ; IP address of USRP partner (Allstar/Asterisk or another Analog_Bridge)
txPort = 32013                          ; Transmit USRP frames on this port
rxPort = 34013                          ; Listen for USRP frames on this port
usrpAudio = AUDIO_UNITY                 ; Audio to ASL (AUDIO_UNITY, AUDIO_USE_AGC, AUDIO_USE_GAIN)
usrpGain = 1.10                         ; Gain (in db) of the AGC filter
tlvAudio = AUDIO_UNITY                  ; Audio from ASL (AUDIO_UNITY, AUDIO_USE_GAIN, AUDIO_BPF)
tlvGain = 0.35                          ; Gain factor of audio from ASL (0.0-1.0)

[MACROS]

; Where the macros are
; xxxx=yyyy
; xxxx is the dial string to match
; yyyy is the command line to execute

; xxxx must be preceded by a *
; xxxx can be any string (alphanumeric)
; yyyy is the command to execute
; yyyy will replace xxxx in the dial string
; arguments follow the macro name with a # delimiter

; For example using macro "5678" above would look like:
; *5678#9876

; Which would invoke:
; echo 9876

; Information for DV3000 hardware decoder
;   There are two configuration modes: IP (AMBEServer) and serial (direct connect hardware)
;   Use top server and port if using AMBEServer
;   Use bottom server/port and serial = true if using the DV3000u (thumbdv)
;   Did you run AMBETest4.py before using this?
[DV3000]
address = 127.0.0.1                   ; IP address of AMBEServer
rxPort = 2460                         ; Port of AMBEServer
; address = /dev/ttyUSB0              ; Device of DV3000U on this machine
; baud = 460800                       ; Baud rate of the dongle (230400 or 460800)
; serial = true                       ; Use serial=true for direct connect or serial=false for AMBEServer


Analog<->NXDN:

; Analog_Bridge configuration file.
;   This file should be placed in either /etc or it can be
;   supplied as a path on the Analog_Bridge command line.

; The best way to think of this file is that there are two main sections, the USRP (analog audio) and
; AMBE_AUDIO (compressed audio).  Analog_Bridge will take everything sent to the USRP port and
; encode it for transmission on the AMBE_AUDIO port.  The encoder will use the format defined in ambeMode.
; As you might expect, the reverse direction is defined too.

; Analog_Bridge supports include files. More on this later...
include = dvsm.macro
; include = asl.macro

; General Section describes settings for Analog_Bridge itself.
[GENERAL]
logLevel = 2                            ; Show messages and above 0=No logging, 1=Debug, 2=Message, 3=Info, 4=Warning, 5=Error, 6=Fatal

; Metadata management
subscriberFile = /var/lib/dvswitch/subscriber_ids.csv   ; DMR ID to callsign lookup data
exportMetadata = true                   ; Export metadata to USRP partner (transcode setups require this)

; General vocoder setup information
decoderFallBack = true                  ; Allow software AMBE decoding if a hardware decoder is not found
useEmulator = false                     ; Use the MD380 AMBE emulator for AMBE72 (DMR/YSFN/NXDN)
emulatorAddress = 127.0.0.1:2473        ; IP address and port of the md380 server

; Information for xx_Bridge (Where xx is MMDVM, Quantar, HB, IPSC)
[AMBE_AUDIO]
address = 127.0.0.1                     ; IP address of xx_Bridge
txPort = 31016                          ; Transmit TLV frames to partner on this port
rxPort = 31017                          ; Listen for TLV frames from partner on this port
ambeMode = NXDN                          ; DMR, DMR_IPSC, DSTAR, NXDN, P25, YSFN, YSFW (encode PCM to this format)
minTxTimeMS = 2500                      ; Minimum time in MS for hang delay (0-10000)

; The metadata below is used when ASL is the source since it does not have any concept of digital modes
gatewayDmrId = 3101883                         ; ID to use when transmitting from Analog_Bridge
repeaterID = 310998                          ; ID of source repeater
txTg = 31660                                ; TG to use for all frames sent from Analog_Bridge -> xx_Bridge
txTs = 2                                ; Slot to use for frames sent from Analog_Bridge -> xx_Bridge
colorCode = 1                           ; Color Code to assign DMR frames

; Information for USRP channel driver.  This interface uses PCM to transfer audio information
; There are two typical configurations, ASL and Transcode.  ASL (AllstarLink) is for analog clients connected
; to a digital network.  Transcode is when Analog_Bridge actually points its PCM interfaces back at itself,
; causing a TLV <-- (pcm <--> pcm) --> TLV type of architecture.
;   When using ASL, this matches the rpt.conf ASL file with a setting like:
;   rxchannel = usrp/127.0.0.1:34001:32001
;   When Transcoding, make two ini files and set txPort equal to the other instance rxPort (crossover).  Launch
;   each instance with its own ini file.
[USRP]
address = 127.0.0.1                     ; IP address of USRP partner (Allstar/Asterisk or another Analog_Bridge)
txPort = 34013                          ; Transmit USRP frames on this port
rxPort = 32013                          ; Listen for USRP frames on this port
usrpAudio = AUDIO_UNITY                 ; Audio to ASL (AUDIO_UNITY, AUDIO_USE_AGC, AUDIO_USE_GAIN)
usrpGain = 1.10                         ; Gain (in db) of the AGC filter
tlvAudio = AUDIO_UNITY                  ; Audio from ASL (AUDIO_UNITY, AUDIO_USE_GAIN, AUDIO_BPF)
tlvGain = 0.35                          ; Gain factor of audio from ASL (0.0-1.0)

[MACROS]

; Where the macros are
; xxxx=yyyy
; xxxx is the dial string to match
; yyyy is the command line to execute

; xxxx must be preceded by a *
; xxxx can be any string (alphanumeric)
; yyyy is the command to execute
; yyyy will replace xxxx in the dial string
; arguments follow the macro name with a # delimiter

; For example using macro "5678" above would look like:
; *5678#9876

; Which would invoke:
; echo 9876

; Information for DV3000 hardware decoder
;   There are two configuration modes: IP (AMBEServer) and serial (direct connect hardware)
;   Use top server and port if using AMBEServer
;   Use bottom server/port and serial = true if using the DV3000u (thumbdv)
;   Did you run AMBETest4.py before using this?
[DV3000]
address = 127.0.0.1                   ; IP address of AMBEServer
rxPort = 2460                         ; Port of AMBEServer
; address = /dev/ttyUSB0              ; Device of DV3000U on this machine
; baud = 460800                       ; Baud rate of the dongle (230400 or 460800)
; serial = true                       ; Use serial=true for direct connect or serial=false for AMBEServer

I'm running one instance of the MD380 server.

Am I missing something here?


Re: MMDVM_Bridge not sending to NXDNGateway

Bill N2WNS
 

Yes it does. I'm going to spin up the gateway that came with NXDNClients. I'll post back results.


Re: MMDVM_Bridge not sending to NXDNGateway

Steve N4IRS
 

That tells us that MMDVM_Bridge is sending to NXDNGateway.

On 1/27/20 9:50 PM, Bill N2WNS wrote:
Sorry about that. I only enabled the Network Debug. Here's the output of the general. I shortened it but you'll get the gist:

M: 2020-01-28 02:47:55.522 Opening Icom connection
I: 2020-01-28 02:47:55.523 Opening NXDN network connection
E: 2020-01-28 02:47:55.558 Cannot find address for host nxdn.evsuperfreqs.com
I: 2020-01-28 02:47:56.344 Loaded 48 NXDN reflectors
I: 2020-01-28 02:47:56.344 Loaded NXDN parrot (TG10)
I: 2020-01-28 02:47:56.344 Loaded NXDN2DMR reflector (TG20)
I: 2020-01-28 02:47:56.345 Loaded 2345 Ids to the NXDN callsign lookup table
M: 2020-01-28 02:47:56.345 Starting NXDNGateway-20180524
M: 2020-01-28 02:47:56.345 Linked at startup to reflector 31360
I: 2020-01-28 02:47:56.345 Started the NXDN Id lookup reload thread
D: 2020-01-28 02:48:19.576 Icom Data Received
D: 2020-01-28 02:48:19.577 0000:  49 43 4F 4D 01 01 08 E0 00 00 00 00 00 00 00 00    *ICOM............*
D: 2020-01-28 02:48:19.577 0010:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.577 0020:  00 00 00 00 00 23 1C 21 81 01 10 00 0F 01 00 20    *.....#.!....... *
D: 2020-01-28 02:48:19.578 0030:  84 D2 7B AC 00 00 00 A6 A0 00 00 01 00 20 84 D2    *..{.......... ..*
D: 2020-01-28 02:48:19.578 0040:  7B AC 00 00 00 A6 A0 00 00 00 00 00 00 00 00 00    *{...............*
D: 2020-01-28 02:48:19.578 0050:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.578 0060:  00 00 00 00 00 00                                  *......*
D: 2020-01-28 02:48:19.588 Icom Data Received
D: 2020-01-28 02:48:19.588 0000:  49 43 4F 4D 01 01 08 E0 00 00 00 00 00 00 00 00    *ICOM............*
D: 2020-01-28 02:48:19.589 0010:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.589 0020:  00 00 00 00 00 23 10 21 AC C1 01 00 2E 00 02 B9    *.....#.!........*
D: 2020-01-28 02:48:19.589 0030:  00 08 60 80 01 5A 00 04 60 40 00 00 02 D9 00 08    *..`..Z..`@......*
D: 2020-01-28 02:48:19.589 0040:  E0 90 01 5C 87 C5 B0 40 00 00 00 00 00 00 00 00    *...\...@........*
D: 2020-01-28 02:48:19.589 0050:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.589 0060:  00 00 00 00 00 00

It just repeats this.


Re: MMDVM_Bridge not sending to NXDNGateway

Bill N2WNS
 

Sorry about that. I only enabled the Network Debug. Here's the output of the general. I shortened it but you'll get the gist:

M: 2020-01-28 02:47:55.522 Opening Icom connection
I: 2020-01-28 02:47:55.523 Opening NXDN network connection
E: 2020-01-28 02:47:55.558 Cannot find address for host nxdn.evsuperfreqs.com
I: 2020-01-28 02:47:56.344 Loaded 48 NXDN reflectors
I: 2020-01-28 02:47:56.344 Loaded NXDN parrot (TG10)
I: 2020-01-28 02:47:56.344 Loaded NXDN2DMR reflector (TG20)
I: 2020-01-28 02:47:56.345 Loaded 2345 Ids to the NXDN callsign lookup table
M: 2020-01-28 02:47:56.345 Starting NXDNGateway-20180524
M: 2020-01-28 02:47:56.345 Linked at startup to reflector 31360
I: 2020-01-28 02:47:56.345 Started the NXDN Id lookup reload thread
D: 2020-01-28 02:48:19.576 Icom Data Received
D: 2020-01-28 02:48:19.577 0000:  49 43 4F 4D 01 01 08 E0 00 00 00 00 00 00 00 00    *ICOM............*
D: 2020-01-28 02:48:19.577 0010:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.577 0020:  00 00 00 00 00 23 1C 21 81 01 10 00 0F 01 00 20    *.....#.!....... *
D: 2020-01-28 02:48:19.578 0030:  84 D2 7B AC 00 00 00 A6 A0 00 00 01 00 20 84 D2    *..{.......... ..*
D: 2020-01-28 02:48:19.578 0040:  7B AC 00 00 00 A6 A0 00 00 00 00 00 00 00 00 00    *{...............*
D: 2020-01-28 02:48:19.578 0050:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.578 0060:  00 00 00 00 00 00                                  *......*
D: 2020-01-28 02:48:19.588 Icom Data Received
D: 2020-01-28 02:48:19.588 0000:  49 43 4F 4D 01 01 08 E0 00 00 00 00 00 00 00 00    *ICOM............*
D: 2020-01-28 02:48:19.589 0010:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.589 0020:  00 00 00 00 00 23 10 21 AC C1 01 00 2E 00 02 B9    *.....#.!........*
D: 2020-01-28 02:48:19.589 0030:  00 08 60 80 01 5A 00 04 60 40 00 00 02 D9 00 08    *..`..Z..`@......*
D: 2020-01-28 02:48:19.589 0040:  E0 90 01 5C 87 C5 B0 40 00 00 00 00 00 00 00 00    *...\...@........*
D: 2020-01-28 02:48:19.589 0050:  00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    *................*
D: 2020-01-28 02:48:19.589 0060:  00 00 00 00 00 00

It just repeats this.


Re: MMDVM_Bridge not sending to NXDNGateway

Steve N4IRS
 

Did you enable debug in the General stanza or the Network stanza? or both. I want just the General stanza.

On 1/27/20 9:18 PM, Bill N2WNS wrote:
root@dvswitch:/opt/TriState_NXDN/NXDNGateway/log# cat NXDNGateway-2020-01-28.log
M: 2020-01-28 02:15:05.762 Opening Icom connection
I: 2020-01-28 02:15:05.762 Opening NXDN network connection
I: 2020-01-28 02:15:06.507 Loaded 49 NXDN reflectors
I: 2020-01-28 02:15:06.507 Loaded NXDN parrot (TG10)
I: 2020-01-28 02:15:06.507 Loaded NXDN2DMR reflector (TG20)
I: 2020-01-28 02:15:06.508 Loaded 2345 Ids to the NXDN callsign lookup table
M: 2020-01-28 02:15:06.508 Starting NXDNGateway-20180524
D: 2020-01-28 02:15:06.508 NXDN Network Poll Sent
D: 2020-01-28 02:15:06.508 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:06.508 0010:  80                                                 *.*
D: 2020-01-28 02:15:06.508 NXDN Network Poll Sent
D: 2020-01-28 02:15:06.508 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:06.508 0010:  80                                                 *.*
D: 2020-01-28 02:15:06.508 NXDN Network Poll Sent
D: 2020-01-28 02:15:06.508 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:06.508 0010:  80                                                 *.*
M: 2020-01-28 02:15:06.508 Linked at startup to reflector 31360
I: 2020-01-28 02:15:06.508 Started the NXDN Id lookup reload thread
D: 2020-01-28 02:15:06.513 NXDN Network Data Received
D: 2020-01-28 02:15:06.513 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:06.513 0010:  80                                                 *.*
D: 2020-01-28 02:15:06.513 NXDN Network Data Received
D: 2020-01-28 02:15:06.513 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:06.513 0010:  80                                                 *.*
D: 2020-01-28 02:15:06.518 NXDN Network Data Received
D: 2020-01-28 02:15:06.518 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:06.518 0010:  80                                                 *.*
D: 2020-01-28 02:15:11.511 NXDN Network Poll Sent
D: 2020-01-28 02:15:11.511 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:11.511 0010:  80                                                 *.*
D: 2020-01-28 02:15:11.516 NXDN Network Data Received
D: 2020-01-28 02:15:11.516 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:11.516 0010:  80                                                 *.*
D: 2020-01-28 02:15:16.511 NXDN Network Poll Sent
D: 2020-01-28 02:15:16.511 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:16.512 0010:  80                                                 *.*
D: 2020-01-28 02:15:16.517 NXDN Network Data Received
D: 2020-01-28 02:15:16.517 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:16.517 0010:  80                                                 *.*
D: 2020-01-28 02:15:21.516 NXDN Network Poll Sent
D: 2020-01-28 02:15:21.516 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:21.516 0010:  80                                                 *.*
D: 2020-01-28 02:15:21.522 NXDN Network Data Received
D: 2020-01-28 02:15:21.522 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:21.522 0010:  80                                                 *.*
D: 2020-01-28 02:15:26.521 NXDN Network Poll Sent
D: 2020-01-28 02:15:26.521 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:26.521 0010:  80                                                 *.*
D: 2020-01-28 02:15:26.526 NXDN Network Data Received
D: 2020-01-28 02:15:26.526 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:26.526 0010:  80                                                 *.*
D: 2020-01-28 02:15:31.522 NXDN Network Poll Sent
D: 2020-01-28 02:15:31.522 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:31.522 0010:  80                                                 *.*
D: 2020-01-28 02:15:31.527 NXDN Network Data Received
D: 2020-01-28 02:15:31.527 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:31.527 0010:  80                                                 *.*
D: 2020-01-28 02:15:36.529 NXDN Network Poll Sent
D: 2020-01-28 02:15:36.529 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:36.529 0010:  80                                                 *.*
D: 2020-01-28 02:15:36.534 NXDN Network Data Received
D: 2020-01-28 02:15:36.534 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:36.534 0010:  80                                                 *.*
D: 2020-01-28 02:15:41.534 NXDN Network Poll Sent
D: 2020-01-28 02:15:41.535 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:41.535 0010:  80                                                 *.*
D: 2020-01-28 02:15:41.540 NXDN Network Data Received
D: 2020-01-28 02:15:41.540 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:41.540 0010:  80                                                 *.*
D: 2020-01-28 02:15:46.536 NXDN Network Poll Sent
D: 2020-01-28 02:15:46.536 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:46.537 0010:  80                                                 *.*
D: 2020-01-28 02:15:46.542 NXDN Network Data Received
D: 2020-01-28 02:15:46.543 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:46.543 0010:  80                                                 *.*
D: 2020-01-28 02:15:51.540 NXDN Network Poll Sent
D: 2020-01-28 02:15:51.540 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:51.540 0010:  80                                                 *.*
D: 2020-01-28 02:15:51.545 NXDN Network Data Received
D: 2020-01-28 02:15:51.546 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:51.546 0010:  80                                                 *.*
D: 2020-01-28 02:15:52.463 NXDN Network Data Sent
D: 2020-01-28 02:15:52.463 0000:  4E 58 44 4E 44 84 D2 7B AC 05 81 01 10 00 0F 01    *NXDND..{........*
D: 2020-01-28 02:15:52.464 0010:  00 20 84 D2 7B AC 00 00 00 A6 A0 00 00 01 00 20    *. ..{.......... *
D: 2020-01-28 02:15:52.464 0020:  84 D2 7B AC 00 00 00 A6 A0 00 00                   *..{........*
D: 2020-01-28 02:15:52.469 NXDN Network Data Sent
D: 2020-01-28 02:15:52.469 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC C1 01 00 2E 18    *NXDND..{........*
D: 2020-01-28 02:15:52.469 0010:  17 78 06 A4 01 84 0B 97 80 01 30 00 00 18 35 A0    *.x........0...5.*
D: 2020-01-28 02:15:52.469 0020:  06 46 21 80 01 5C 80 00 70 40 00                   *.F!..\..p@.*
D: 2020-01-28 02:15:52.470 NXDN Network Data Sent
D: 2020-01-28 02:15:52.470 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 81 82 13 45 D0    *NXDND..{......E.*
D: 2020-01-28 02:15:52.470 0010:  02 B9 4F 8A E2 F4 7C 1E BC A3 3A C0 00 D8 0C A8    *..O...|...:.....*
D: 2020-01-28 02:15:52.470 0020:  33 E0 24 DC 02 F6 87 44 32 00 00                   *3.$....D2..*
D: 2020-01-28 02:15:52.475 NXDN Network Data Sent
D: 2020-01-28 02:15:52.475 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 41 27 BA D8 90    *NXDND..{...A'...*
D: 2020-01-28 02:15:52.475 0010:  09 A3 90 6A 1E B8 01 6C AF D5 F5 C0 00 50 02 B9    *...j...l.....P..*
D: 2020-01-28 02:15:52.475 0020:  5E 4B 7A 98 01 59 93 25 D8 40 00                   *^Kz..Y.%.@.*
D: 2020-01-28 02:15:52.480 NXDN Network Data Sent
D: 2020-01-28 02:15:52.480 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 01 00 00 19 10    *NXDND..{........*
D: 2020-01-28 02:15:52.481 0010:  02 D9 0F 8E E0 80 01 5C 80 04 70 40 00 00 02 B9    *.......\..p@....*
D: 2020-01-28 02:15:52.481 0020:  00 08 60 80 01 6A 00 04 60 40 00                   *..`..j..`@.*
D: 2020-01-28 02:15:52.491 NXDN Network Data Sent
D: 2020-01-28 02:15:52.491 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC C1 01 00 2E 00    *NXDND..{........*
D: 2020-01-28 02:15:52.491 0010:  02 B3 00 08 B0 80 01 5C 80 04 70 40 00 00 02 D9    *.......\..p@....*
D: 2020-01-28 02:15:52.491 0020:  00 08 60 80 04 D4 80 04 30 40 00                   *..`.....0@.*
D: 2020-01-28 02:15:52.557 NXDN Network Data Sent
D: 2020-01-28 02:15:52.558 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 81 82 13 45 00    *NXDND..{......E.*
D: 2020-01-28 02:15:52.558 0010:  02 B4 00 08 C0 80 01 6C 80 04 30 40 00 70 02 B9    *.......l..0@.p..*
D: 2020-01-28 02:15:52.558 0020:  4F 8E E2 C8 01 5C 8F 15 71 C0 00                   *O....\..q..*
D: 2020-01-28 02:15:52.670 NXDN Network Data Sent
D: 2020-01-28 02:15:52.671 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 41 27 BA D8 A8    *NXDND..{...A'...*
D: 2020-01-28 02:15:52.671 0010:  24 D8 97 CE 71 C0 01 7B D7 13 15 C0 00 70 12 B9    *$...q..{.....p..*
D: 2020-01-28 02:15:52.671 0020:  5F 80 EA A8 01 6C AF 35 35 C0 00                   *_....l.55..*
D: 2020-01-28 02:15:52.733 NXDN Network Data Sent
D: 2020-01-28 02:15:52.733 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 01 00 00 19 30    *NXDND..{.......0*
D: 2020-01-28 02:15:52.733 0010:  02 B3 2E 4B B0 88 01 5C 87 C6 F0 40 00 00 02 D9    *...K...\...@....*
D: 2020-01-28 02:15:52.733 0020:  00 08 60 80 04 D4 80 04 30 40 00                   *..`.....0@.*
D: 2020-01-28 02:15:52.795 NXDN Network Data Sent
D: 2020-01-28 02:15:52.795 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC C1 01 00 2E 00    *NXDND..{........*
D: 2020-01-28 02:15:52.795 0010:  02 B4 00 08 C0 80 01 6C 80 04 30 40 00 00 02 B3    *.......l..0@....*
D: 2020-01-28 02:15:52.795 0020:  00 08 B0 80 01 5C 80 04 70 40 00                   *.....\..p@.*
D: 2020-01-28 02:15:52.913 NXDN Network Data Sent
D: 2020-01-28 02:15:52.913 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 81 82 13 45 00    *NXDND..{......E.*
D: 2020-01-28 02:15:52.913 0010:  02 D9 00 08 E0 80 01 5A 00 04 20 40 00 00 02 B9    *.......Z.. @....*
D: 2020-01-28 02:15:52.913 0020:  00 08 E0 80 01 69 80 04 58 40 00                   *.....i..X@.*
D: 2020-01-28 02:15:52.975 NXDN Network Data Sent
D: 2020-01-28 02:15:52.975 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 41 27 BA D8 00    *NXDND..{...A'...*
D: 2020-01-28 02:15:52.975 0010:  02 B9 00 08 60 80 01 5C 80 04 70 40 00 00 02 D4    *....`..\..p@....*
D: 2020-01-28 02:15:52.975 0020:  00 08 C0 80 01 5C 80 04 70 40 00                   *.....\..p@.*
D: 2020-01-28 02:15:53.037 NXDN Network Data Sent
D: 2020-01-28 02:15:53.037 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 01 00 00 19 00    *NXDND..{........*
D: 2020-01-28 02:15:53.037 0010:  02 B9 00 08 60 80 01 69 80 04 58 40 00 00 02 B9    *....`..i..X@....*
D: 2020-01-28 02:15:53.037 0020:  00 08 E0 80 01 5A 00 04 60 40 00                   *.....Z..`@.*
D: 2020-01-28 02:15:53.155 NXDN Network Data Sent
D: 2020-01-28 02:15:53.155 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC C1 01 00 2E 00    *NXDND..{........*
D: 2020-01-28 02:15:53.155 0010:  02 D9 00 08 60 80 04 D4 80 04 30 40 00 00 02 B3    *....`.....0@....*
D: 2020-01-28 02:15:53.155 0020:  00 08 B0 80 01 6C 80 04 30 40 00                   *.....l..0@.*
D: 2020-01-28 02:15:53.217 NXDN Network Data Sent
D: 2020-01-28 02:15:53.217 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 81 82 13 45 00    *NXDND..{......E.*
D: 2020-01-28 02:15:53.217 0010:  02 B4 00 08 C0 80 01 5C 80 04 70 40 00 00 02 D9    *.......\..p@....*
D: 2020-01-28 02:15:53.217 0020:  00 08 E0 80 01 59 80 04 18 40 00                   *.....Y...@.*
D: 2020-01-28 02:15:53.279 NXDN Network Data Sent
D: 2020-01-28 02:15:53.279 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 41 27 BA D8 00    *NXDND..{...A'...*
D: 2020-01-28 02:15:53.280 0010:  02 B9 00 08 E0 80 01 6A 00 04 60 40 00 00 02 B9    *.......j..`@....*
D: 2020-01-28 02:15:53.280 0020:  00 08 60 80 01 5C 80 04 70 40 00                   *..`..\..p@.*
D: 2020-01-28 02:15:53.392 NXDN Network Data Sent
D: 2020-01-28 02:15:53.392 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 01 00 00 19 00    *NXDND..{........*
D: 2020-01-28 02:15:53.393 0010:  02 D3 00 08 B0 80 01 5C 80 04 70 40 00 00 02 B4    *.......\..p@....*
D: 2020-01-28 02:15:53.393 0020:  00 08 40 80 01 6C 80 04 70 40 00                   *..@..l..p@.*
D: 2020-01-28 02:15:53.454 NXDN Network Data Sent
D: 2020-01-28 02:15:53.454 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC C1 01 00 2E 00    *NXDND..{........*
D: 2020-01-28 02:15:53.455 0010:  02 B9 00 08 E0 80 01 59 80 04 58 40 00 00 02 D9    *.......Y..X@....*
D: 2020-01-28 02:15:53.455 0020:  00 08 60 80 04 D2 00 04 20 40 00                   *..`..... @.*
D: 2020-01-28 02:15:53.511 NXDN Network Data Sent
D: 2020-01-28 02:15:53.511 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 81 82 13 45 00    *NXDND..{......E.*
D: 2020-01-28 02:15:53.511 0010:  02 B9 00 08 E0 80 01 6C 80 04 30 40 00 00 02 B3    *.......l..0@....*
D: 2020-01-28 02:15:53.512 0020:  00 08 B0 80 01 5C 80 04 70 40 00                   *.....\..p@.*
D: 2020-01-28 02:15:53.634 NXDN Network Data Sent
D: 2020-01-28 02:15:53.634 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 41 27 BA D8 00    *NXDND..{...A'...*
D: 2020-01-28 02:15:53.635 0010:  02 D4 00 08 C0 80 01 5C 80 04 30 40 00 00 02 B9    *.......\..0@....*
D: 2020-01-28 02:15:53.635 0020:  00 08 E0 80 01 69 80 04 58 40 00                   *.....i..X@.*
D: 2020-01-28 02:15:53.691 NXDN Network Data Sent
D: 2020-01-28 02:15:53.691 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 01 00 00 19 00    *NXDND..{........*
D: 2020-01-28 02:15:53.691 0010:  02 B9 00 08 60 80 01 5A 00 04 60 40 00 00 02 D9    *....`..Z..`@....*
D: 2020-01-28 02:15:53.691 0020:  00 08 E0 80 01 5C 80 04 70 40 00                   *.....\..p@.*
D: 2020-01-28 02:15:53.748 NXDN Network Data Sent
D: 2020-01-28 02:15:53.748 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC C1 01 00 2E 00    *NXDND..{........*
D: 2020-01-28 02:15:53.748 0010:  02 B3 00 08 30 80 01 6C 80 04 70 40 00 00 02 B4    *....0..l..p@....*
D: 2020-01-28 02:15:53.748 0020:  00 08 C0 80 01 5C 80 04 70 40 00                   *.....\..p@.*
D: 2020-01-28 02:15:53.875 NXDN Network Data Sent
D: 2020-01-28 02:15:53.875 0000:  4E 58 44 4E 44 84 D2 7B AC 01 AC 81 82 13 45 00    *NXDND..{......E.*
D: 2020-01-28 02:15:53.876 0010:  02 D9 00 08 60 80 04 D1 80 04 18 40 00 00 02 B9    *....`......@....*
D: 2020-01-28 02:15:53.876 0020:  00 08 E0 80 01 6A 00 04 20 40 00                   *.....j.. @.*
D: 2020-01-28 02:15:53.932 NXDN Network Data Sent
D: 2020-01-28 02:15:53.932 0000:  4E 58 44 4E 44 84 D2 7B AC 09 81 01 10 00 0F 08    *NXDND..{........*
D: 2020-01-28 02:15:53.932 0010:  00 20 84 D2 7B AC 00 00 00 4B 60 00 00 08 00 20    *. ..{....K`.... *
D: 2020-01-28 02:15:53.932 0020:  84 D2 7B AC 00 00 00 4B 60 00 00                   *..{....K`..*
D: 2020-01-28 02:15:56.540 NXDN Network Poll Sent
D: 2020-01-28 02:15:56.540 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:56.540 0010:  80                                                 *.*
D: 2020-01-28 02:15:56.546 NXDN Network Data Received
D: 2020-01-28 02:15:56.546 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:15:56.546 0010:  80                                                 *.*
D: 2020-01-28 02:16:01.545 NXDN Network Poll Sent
D: 2020-01-28 02:16:01.546 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:16:01.547 0010:  80                                                 *.*
D: 2020-01-28 02:16:01.552 NXDN Network Data Received
D: 2020-01-28 02:16:01.553 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:16:01.553 0010:  80                                                 *.*
D: 2020-01-28 02:16:06.550 NXDN Network Poll Sent
D: 2020-01-28 02:16:06.551 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:16:06.551 0010:  80                                                 *.*
D: 2020-01-28 02:16:06.556 NXDN Network Data Received
D: 2020-01-28 02:16:06.556 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:16:06.556 0010:  80                                                 *.*
D: 2020-01-28 02:16:11.552 NXDN Network Poll Sent
D: 2020-01-28 02:16:11.552 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:16:11.552 0010:  80                                                 *.*
D: 2020-01-28 02:16:11.557 NXDN Network Data Received
D: 2020-01-28 02:16:11.557 0000:  4E 58 44 4E 50 4E 32 57 4E 53 20 20 20 20 20 7A    *NXDNPN2WNS     z*
D: 2020-01-28 02:16:11.557 0010:  80                                                 *.*
root@dvswitch:/opt/TriState_NXDN/NXDNGateway/log#

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