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Template:Networking rutos monitoring via modbus (view source)

Revision as of 16:24, 25 April 2023

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Modbus enables communication among many devices connected to the same network, for example, a system that measures temperature and humidity and communicates the results to a computer. Modbus is often used to connect a supervisory computer with a remote terminal unit (RTU) in supervisory control and data acquisition (SCADA) systems. Many of the data types are named from its use in driving relays: a single-bit physical output is called a coil, and a single-bit physical input is called a discrete input or a contact.
 
Modbus enables communication among many devices connected to the same network, for example, a system that measures temperature and humidity and communicates the results to a computer. Modbus is often used to connect a supervisory computer with a remote terminal unit (RTU) in supervisory control and data acquisition (SCADA) systems. Many of the data types are named from its use in driving relays: a single-bit physical output is called a coil, and a single-bit physical input is called a discrete input or a contact.
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This article provides a guide on how to use Modbus TCP to monitor {{{name}}} routers with a PC using a Linux Operating System. However, the same principles apply to RUTXxx and TRBxx family devices, but the holding register information will differ. You can find this information in the links below:
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This article provides a guide on how to use Modbus TCP to monitor {{{name}}} routers with a PC using a Linux Operating System.
*'''[[RUTXR1 Monitoring via Modbus]]'''
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*'''[[RUTX12 Monitoring via Modbus]]'''
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*'''[[RUTX11 Monitoring via Modbus]]'''
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*'''[[RUTX10 Monitoring via Modbus]]'''
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*'''[[RUTX09 Monitoring via Modbus]]'''
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*'''[[RUTX08 Monitoring via Modbus]]'''
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*'''[[TRB245 Monitoring via Modbus]]'''
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*'''[[TRB255 Monitoring via Modbus]]'''
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*'''[[TRB140 Monitoring via Modbus]]'''
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*'''[[TRB141 Monitoring via Modbus]]'''
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*'''[[TRB142 Monitoring via Modbus]]'''
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*'''[[TRB145 Monitoring via Modbus]]'''
   
==Configuring the router==
 
==Configuring the router==
    
In order to start using Modbus TCP, we must first configure the router. Modbus TCP configuration from the router's side is very simple. All you need to do is log in to the router's WebUI, go to '''Services → Modbus''', '''Enable''' the Modbus TCP service, enter a '''Port''' number through which the Modbus TCP communication will take place and '''Allow remote access''' if you wish to connect to the router remotely (from WAN).
 
In order to start using Modbus TCP, we must first configure the router. Modbus TCP configuration from the router's side is very simple. All you need to do is log in to the router's WebUI, go to '''Services → Modbus''', '''Enable''' the Modbus TCP service, enter a '''Port''' number through which the Modbus TCP communication will take place and '''Allow remote access''' if you wish to connect to the router remotely (from WAN).
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[[File:Networking_rutos_manual_modbus_modbus_tcp_slave_v2.png]]
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[[File:Networking_rutos_manual_modbus_modbus_tcp_slave.png|border|class=tlt-border]]
    
==Installing the necessary software==
 
==Installing the necessary software==
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==Getting router parameters==
 
==Getting router parameters==
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Modbus TCP can be used to both '''get''' and '''set''' certain router parameters. First lets do an overview of how to obtain parameters via Modbus TCP. Please keep in mind that in order to get routers parameters when using '''[https://wiki.teltonika-networks.com/view/{{{name}}}_Modbus#Requests_configuration Request Configuration]''' you need to use '''Register Number''' instead of '''Register Address'''.{{#ifeq:RUTX12| RUTX12| To get data from the second modem, you need to execute this command:
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Modbus TCP can be used to both '''get''' and '''set''' certain router parameters. First lets do an overview of how to obtain parameters via Modbus TCP. Please keep in mind that in order to get routers parameters when using '''[https://wiki.teltonika-networks.com/view/{{{name}}}_Modbus#Requests_configuration Request Configuration]''' you need to use '''Register Number''' instead of '''Register Address'''.
 
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$  modbus write -D 192.168.1.1 %MW328  12589 12590 12800
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This command sets it to primary modem:
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$ modbus write -D 192.168.1.1 %MW328  13101 12544
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}}
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===List of parameters===
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Router parameters are held within '''registers'''. Each register contains 2 bytes of information. For simplification the number of registers for storing numerical values is 2, while the number of registers for storing text information is 16. The register addresses and corresponding system values are described in the table below:
      
{{Template:Networking_rutos_manual_modbus_modbus_tcp_get_parameters_table
 
{{Template:Networking_rutos_manual_modbus_modbus_tcp_get_parameters_table
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|analog = {{{analog}}}
 
|analog = {{{analog}}}
 
|gps = {{{gps}}}
 
|gps = {{{gps}}}
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|dualsim = {{{dualsim}}}
 
}}
 
}}
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For the first example, lets use a modbus read command to attempt to obtain the router's uptime value in seconds. If you look back at the table above, you will see that the uptime value is stored in two registers starting from the first register, therefore:
 
For the first example, lets use a modbus read command to attempt to obtain the router's uptime value in seconds. If you look back at the table above, you will see that the uptime value is stored in two registers starting from the first register, therefore:
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  $ modbus read -w -p 12345 192.168.1.1 %MW001 2
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  $ modbus read -w -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW001 2
    
'''-w''' specifies the data type. In this case, unsigned 16 bit integers.
 
'''-w''' specifies the data type. In this case, unsigned 16 bit integers.
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'''-p''' specifies the port number.
 
'''-p''' specifies the port number.
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'''192.168.1.1''' - the router's LAN IP address.
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'''{{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}}''' - the router's LAN IP address.
    
'''%MW001''' specifies the register address.
 
'''%MW001''' specifies the register address.
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Lets examine a different, more complex example by issuing a request for the router's '''WAN IP address'''. If you look at the '''[[Monitoring_via_Modbus#List_of_parameters|table]]''' above, you will see that the WAN IP address value is contained within the 139th and 140th registers. Therefore, we should specify the 139th address and read 2 registers from that address:
 
Lets examine a different, more complex example by issuing a request for the router's '''WAN IP address'''. If you look at the '''[[Monitoring_via_Modbus#List_of_parameters|table]]''' above, you will see that the WAN IP address value is contained within the 139th and 140th registers. Therefore, we should specify the 139th address and read 2 registers from that address:
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  $ modbus read -w -p 12345 192.168.1.1 %MW139 2
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  $ modbus read -w -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW139 2
    
[[File:Configuration examples modbus wan ip v2.png]]
 
[[File:Configuration examples modbus wan ip v2.png]]
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Some values like Hostname, Router name, Network type are represented as text in their original form, but are stored in registers as numbers. You can interpret these values the same way as all discussed before (by converting them to binary and then to text), but a simpler way would be to get them in '''hexadecimal''' form and then convert them to text. To do so, we'll have to add the '''-D''' parameter to the command. Lets do it by asking for the router's Hostname:
 
Some values like Hostname, Router name, Network type are represented as text in their original form, but are stored in registers as numbers. You can interpret these values the same way as all discussed before (by converting them to binary and then to text), but a simpler way would be to get them in '''hexadecimal''' form and then convert them to text. To do so, we'll have to add the '''-D''' parameter to the command. Lets do it by asking for the router's Hostname:
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  $ modbus read -D -w -p 12345 192.168.1.1 %MW007 16
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  $ modbus read -D -w -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW007 16
    
[[Image:Configuration examples modbus hostname example v2.png]]
 
[[Image:Configuration examples modbus hostname example v2.png]]
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|series={{{series}}}
 
|series={{{series}}}
 
|name={{{name}}}
 
|name={{{name}}}
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|dualsim={{{dualsim}}}
 
}}
 
}}
 
{{#ifeq:{{{wifi}}}|1|
 
{{#ifeq:{{{wifi}}}|1|
 
As you can see most of the values are '''0''' and '''1''', 0 meaning OFF and 1 meaning ON. For example, if you want to turn '''WiFi OFF''', this command should be used:
 
As you can see most of the values are '''0''' and '''1''', 0 meaning OFF and 1 meaning ON. For example, if you want to turn '''WiFi OFF''', this command should be used:
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  $ modbus write -w -p 12345 192.168.1.1 %MW203 0
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  $ modbus write -w -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW203 0
    
If you want to turn '''WiFi ON''', use this command instead:
 
If you want to turn '''WiFi ON''', use this command instead:
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  $ modbus write -w -p 12345 192.168.1.1 %MW203 1
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  $ modbus write -w -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW203 1
 
}}
 
}}
{{#ifeq:{{{mobile}}}|1|
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{{#ifeq:1|1|
 
As you can see, the only difference is the digit at the end - '''0 for OFF''', '''1 for ON'''. The same is true for all other parameters that accept only two input values.
 
As you can see, the only difference is the digit at the end - '''0 for OFF''', '''1 for ON'''. The same is true for all other parameters that accept only two input values.
    
In the case of '''SIM switch''' there are three values - '''0''', '''1''' and '''2'''. 1 makes the first SIM card slot in use, 2 makes the second SIM card slot in use and 0 initiates a switc from the SIM card in use to the opposite SIM card. For example, to initiate a switch to the second SIM card the command should look like this:
 
In the case of '''SIM switch''' there are three values - '''0''', '''1''' and '''2'''. 1 makes the first SIM card slot in use, 2 makes the second SIM card slot in use and 0 initiates a switc from the SIM card in use to the opposite SIM card. For example, to initiate a switch to the second SIM card the command should look like this:
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  $ modbus write -w -p 12345 192.168.1.1 %MW205 2
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  $ modbus write -w -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW205 2
    
The '''reboot''' function only takes one value: '''1'''. It simply reboots the router. To initiate a reboot, use this command:
 
The '''reboot''' function only takes one value: '''1'''. It simply reboots the router. To initiate a reboot, use this command:
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  $ modbus write -w -p 12345 192.168.1.1 %MW206 1
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  $ modbus write -w -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW206 1
    
===APN===
 
===APN===
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As an example lets try to change the router's first SIM card's APN to '''gprs.fix-ip.omnitel1.net''':
 
As an example lets try to change the router's first SIM card's APN to '''gprs.fix-ip.omnitel1.net''':
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  $ modbus write -w -D -p 12345 192.168.1.1 %MW207 <span style="color:blue">'''1'''</span> <span style="color:green">'''103 112 114 115 46 102 105 120 45 105 112 46 111 109 110 105 116 101 108 49 46 110 101 116'''</span>
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  $ modbus write -w -D -p 12345 {{#ifeq:{{{series}}}|TRB1|192.168.2.1|192.168.1.1}} %MW207 <span style="color:blue">'''1'''</span> <span style="color:green">'''103 112 114 115 46 102 105 120 45 105 112 46 111 109 110 105 116 101 108 49 46 110 101 116'''</span>
    
The value of the first byte is highlighted in <span style="color:blue">'''blue'''</span> and, in this case, it denotes that the APN value should be changed for the first SIM card. The value of the APN string itself is highlighted in <span style="color:green">'''green'''</span>. Use an ASCII to Decimal online converter to convert individual letters to Decimal code.
 
The value of the first byte is highlighted in <span style="color:blue">'''blue'''</span> and, in this case, it denotes that the APN value should be changed for the first SIM card. The value of the APN string itself is highlighted in <span style="color:green">'''green'''</span>. Use an ASCII to Decimal online converter to convert individual letters to Decimal code.
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===Send SMS message===
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To send an SMS message from the router using Modbus, first, we would need to specify the recipient‘s number and the message itself. This information should be stored in register address <b>397</b>, of which the first <b>10</b> registers are dedicated to a phone number while the remaining <b>80</b> registers – are for message content. Afterward, we would need to set the <b>396</b> register to a value of 1.
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* Phone number:
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Let’s say we have the following phone number, which would be used as a recipient <b>0011123456789</b> (where 00 is a substitute for a plus sign and 111 represents the country code). This number’s representation in hexadecimal format would be 30 30 31 31 31 32 33 34 35 36 37 38 39, but since <b>10</b> registers are reserved for a phone number, the remaining spaces should be filled with zeroes, resulting in the following phone number representation:
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0x3030 0x3131 0x3132 0x3334 0x3536 0x3738 0x3900 0 0 0
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Here 0x characters are needed for the modbus-cli application to treat input as hexadecimal values.
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* Message:
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If we would want to send <b>Hello, this is a test SMS message</b>, this message’s representation in hexadecimal format would be
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0x4865 0x6C6C 0x6F2C 0x2074 0x6869 0x7320 0x6973 0x2061 0x2074 0x6573 0x7400
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----
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* Full command:
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Executing the following two modbus-cli commands would allow us to send SMS message:
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$ modbus write -D -p 502 192.168.1.1 %MW397 0x3030 0x3131 0x3132 0x3334 0x3536 0x3738 0x3900 0 0 0 0x4865 0x6C6C 0x6F2C 0x2074 0x6869 0x7320 0x6973 0x2061 0x2074 0x6573 0x7400
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$ modbus write -D -p 502 192.168.1.1 %MW396 1
 
}}
 
}}
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**http://www.unit-conversion.info/
 
**http://www.unit-conversion.info/
 
**http://www.binaryhexconverter.com/
 
**http://www.binaryhexconverter.com/
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[[Category:{{{name}}} Configuration Examples]]
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