UAB Teltonika RUT955A GPS Tracker User Manual 1

UAB Teltonika GPS Tracker 1

User Manual 1

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Document ID4043741
Application IDIn11Va4j/JQDMq3Zudxwvg==
Document DescriptionUser Manual 1
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Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
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Date Submitted2018-10-22 00:00:00
Date Available2018-10-22 00:00:00
Creation Date2018-10-11 11:54:56
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Document Lastmod2018-10-11 11:54:57
Document TitleUser Manual 1
Document CreatorMicrosoft® Word 2010
Document Author: RytisBertulis

USER MANUAL
RUT955 LTE Router
Legal notice
Copyright © 2015 TELTONIKA Ltd. All rights reserved. Reproduction, transfer, distribution or storage of part
or all of the contents in this document in any form without the prior written permission of TELTONIKA Ltd is
prohibited. The manufacturer reserves the right to modify the product and manual for the purpose of technical
improvement without prior notice.
Other product and company names mentioned herein may be trademarks or trade names of their respective
owners.
Attention
Before using the device we strongly recommend reading this user manual first.
Do not rip open the device. Do not touch the device if the device block is broken.
All wireless devices for data transferring may be susceptible to interference, which could
affect performance.
The device is not water-resistant. Keep it dry.
Device is powered by low voltage +9V DC power adaptor.
Please do not scratch the device. Scratched device is not fully protected.
Table of Contents
Legal notice.............................................................................................................................................................. 2
Attention.................................................................................................................................................................. 2
SAFETY INFORMATION ............................................................................................................................................ 9
Device connection ............................................................................................................................................. 10
Introduction ................................................................................................................................................. 11
Specifications ............................................................................................................................................... 11
2.1
Ethernet ................................................................................................................................................... 11
2.2
Wi-Fi ......................................................................................................................................................... 11
2.3
Hardware ................................................................................................................................................. 11
2.4
Electrical, Mechanical & Environmental .................................................................................................. 12
2.5
Applications ............................................................................................................................................. 12
Setting up your router ................................................................................................................................. 13
3.1
Installation ............................................................................................................................................... 13
3.1.1
Front Panel and Back Panel ............................................................................................................. 13
3.1.2
Connection status LED indication .................................................................................................... 13
3.1.3
Hardware installation ...................................................................................................................... 14
3.2
Logging in ................................................................................................................................................. 15
Operation Modes ......................................................................................................................................... 18
Powering Options ........................................................................................................................................ 19
5.1
Powering the device from higher voltage................................................................................................ 19
Status ........................................................................................................................................................... 20
6.1
Overview .................................................................................................................................................. 20
6.2
System Information ................................................................................................................................. 20
6.3
Network Information ............................................................................................................................... 22
6.4
Device information .................................................................................................................................. 30
6.5
Services .................................................................................................................................................... 32
1.1
Routes ...................................................................................................................................................... 32
6.5.1
ARP ................................................................................................................................................... 32
6.5.2
Active IP-Routes ............................................................................................................................... 33
6.5.3
6.6
Active IPv6-Routes ........................................................................................................................... 33
Graphs ...................................................................................................................................................... 33
6.6.1
Mobile Signal Strength ..................................................................................................................... 33
6.6.2
Realtime Load .................................................................................................................................. 34
6.6.3
Realtime Traffic ................................................................................................................................ 35
6.6.4
Realtime Wireless ............................................................................................................................ 36
6.6.5
Realtime Connections ...................................................................................................................... 37
6.7
Mobile Traffic ........................................................................................................................................... 38
6.8
Speed Test................................................................................................................................................ 38
6.9
Events Log ................................................................................................................................................ 39
6.9.1
All Events.......................................................................................................................................... 39
6.9.2
System Events .................................................................................................................................. 40
6.9.3
Network Events ................................................................................................................................ 41
6.9.4
Events Reporting .............................................................................................................................. 42
6.9.5
Reporting Configuration .................................................................................................................. 43
Network ....................................................................................................................................................... 46
7.1
Mobile ...................................................................................................................................................... 46
7.1.1
General............................................................................................................................................. 46
7.1.2
SIM Management ............................................................................................................................ 49
7.1.3
Network Operators .......................................................................................................................... 50
7.1.4
Mobile Data Limit............................................................................................................................. 51
7.1.5
SIM Idle protection .......................................................................................................................... 52
7.2
WAN ......................................................................................................................................................... 53
7.2.1
Operation Mode .............................................................................................................................. 53
7.2.2
Common configuration .................................................................................................................... 54
7.3
LAN ....................................................................................................................................................... 60
7.3.1
Configuration ................................................................................................................................... 60
7.3.2
DHCP Server ..................................................................................................................................... 61
7.4
Wireless ................................................................................................................................................... 63
7.5
VLAN......................................................................................................................................................... 66
7.5.1
VLAN Networks ................................................................................................................................ 66
7.5.2
LAN Networks .................................................................................................................................. 68
7.6
Firewall..................................................................................................................................................... 68
7.6.1
General Settings ............................................................................................................................... 68
7.6.2
DMZ.................................................................................................................................................. 69
7.6.3
Port Forwarding ............................................................................................................................... 69
7.6.4
Traffic Rules...................................................................................................................................... 72
7.6.5
Custom Rules ................................................................................................................................... 76
7.6.6
DDOS Prevention ............................................................................................................................. 76
7.6.7
Port Scan Prevention ....................................................................................................................... 79
7.7
Routing ..................................................................................................................................................... 79
7.7.1
Static Routes .................................................................................................................................... 79
7.7.2
Dynamic Routes ............................................................................................................................... 80
7.8
Load Balancing ......................................................................................................................................... 84
Remote monitoring and administration ...................................................................................................... 84
Services ........................................................................................................................................................ 86
9.1
VRRP ......................................................................................................................................................... 86
9.1.1
VRRP LAN Configuration Settings .................................................................................................... 86
9.1.2
Check Internet connection............................................................................................................... 87
9.2
TR-069 ...................................................................................................................................................... 87
9.2.1
9.3
TR-069 Parameters Configuration ................................................................................................... 87
Web filter ................................................................................................................................................. 88
9.3.1
Site blocking ..................................................................................................................................... 88
9.3.2
Proxy Based Content Blocker ........................................................................................................... 88
9.4
NTP ........................................................................................................................................................... 89
9.5
RS232/RS485 ............................................................................................................................................ 91
9.5.1
RS232 ............................................................................................................................................... 91
9.5.2
RS485 ............................................................................................................................................... 93
9.5.3
Modes of different serial types in RS232 and RS485 ....................................................................... 96
9.6
VPN ........................................................................................................................................................ 100
9.6.1
OpenVPN ........................................................................................................................................ 100
9.6.2
IPSec ............................................................................................................................................... 103
9.6.3
GRE Tunnel ..................................................................................................................................... 106
9.6.4
PPTP ............................................................................................................................................... 108
9.6.5
L2TP ................................................................................................................................................ 109
9.7
Dynamic DNS.......................................................................................................................................... 109
9.8
SMS Utilities ........................................................................................................................................... 111
9.8.1
SMS Utilities ................................................................................................................................... 111
9.8.2
Call Utilities .................................................................................................................................... 118
9.8.3
User Groups ................................................................................................................................... 119
9.8.4
SMS Management.......................................................................................................................... 119
9.8.5
Remote Configuration.................................................................................................................... 121
9.8.6
Statistics ......................................................................................................................................... 124
9.9
SNMP ..................................................................................................................................................... 124
9.9.1
SNMP Settings ................................................................................................................................ 125
9.9.2
TRAP Settings ................................................................................................................................. 126
9.10
SMS Gateway ..................................................................................................................................... 126
9.10.1 Post/Get Configuration ................................................................................................................. 126
9.10.2 Email to SMS .................................................................................................................................. 128
9.10.3 Scheduled Messages ..................................................................................................................... 129
9.10.4 Auto Reply Configuration .............................................................................................................. 129
9.10.5 SMS Forwarding............................................................................................................................. 130
9.10.6 SMPP.............................................................................................................................................. 133
9.11
GPS ..................................................................................................................................................... 133
9.11.1 GPS................................................................................................................................................. 133
9.11.2 GPS Settings ................................................................................................................................... 134
9.11.3 GPS Mode ...................................................................................................................................... 134
9.11.4 GPS I/O .......................................................................................................................................... 135
9.11.5 GPS Geofencing ............................................................................................................................. 136
9.12
Hotspot .............................................................................................................................................. 137
9.12.1 General settings............................................................................................................................. 137
9.12.2 Internet Access Restriction Settings .............................................................................................. 139
9.12.3 Logging........................................................................................................................................... 140
9.12.4 Landing Page.................................................................................................................................. 141
9.12.5 Radius server configuration........................................................................................................... 143
9.12.6 Statistics......................................................................................................................................... 144
9.13
CLI....................................................................................................................................................... 144
9.14
Auto Reboot ....................................................................................................................................... 145
9.14.1 Ping Reboot ................................................................................................................................... 145
9.14.2 Periodic Reboot ............................................................................................................................. 146
9.15
UPNP .................................................................................................................................................. 146
9.15.1 General Settings ............................................................................................................................ 146
9.15.2 Advanced Settings ......................................................................................................................... 146
9.15.3 UPnP ACLs...................................................................................................................................... 147
9.15.4 Active UPnP Redirects ................................................................................................................... 147
9.16
QoS ..................................................................................................................................................... 147
9.17
Network Shares.................................................................................................................................. 148
9.17.1 Mounted File Systems ................................................................................................................... 148
9.17.2 Samba ............................................................................................................................................ 149
9.17.3 Samba User.................................................................................................................................... 149
9.18
Input/Output...................................................................................................................................... 151
9.18.1 Status ............................................................................................................................................. 151
9.18.2 Input .............................................................................................................................................. 151
9.18.3 Output ........................................................................................................................................... 154
9.18.4 Input/Output hardware information............................................................................................. 157
9.19
MQTT ................................................................................................................................................. 163
9.20
Modbus TCP interface........................................................................................................................ 168
10
System........................................................................................................................................................ 169
10.1
Configuration Wizard ......................................................................................................................... 169
10.2
Profiles ............................................................................................................................................... 171
10.3
Administration ................................................................................................................................... 172
10.3.1 General .......................................................................................................................................... 172
10.3.2 Troubleshoot ................................................................................................................................. 173
10.3.3 Backup ........................................................................................................................................... 174
10.3.4 Diagnostics..................................................................................................................................... 176
10.3.5 MAC Clone ..................................................................................................................................... 177
10.3.6 Overview........................................................................................................................................ 177
10.3.7 Monitoring ..................................................................................................................................... 178
10.4
User scripts ........................................................................................................................................ 178
10.5
Restore point ..................................................................................................................................... 179
10.5.1 Restore point create ...................................................................................................................... 179
10.5.2 Restore point load ......................................................................................................................... 179
10.6
Firmware ............................................................................................................................................ 180
10.6.1 Firmware........................................................................................................................................ 180
10.6.2 FOTA .............................................................................................................................................. 181
10.7
11
Reboot................................................................................................................................................ 181
Device Recovery ......................................................................................................................................... 181
11.1
Reset button ...................................................................................................................................... 182
11.2
Bootloader’s WebUI........................................................................................................................... 182
12
Glossary:..................................................................................................................................................... 182
13
Changelog .................................................................................................................................................. 185
SAFETY INFORMATION
In this document you will be introduced on how to use a router safely. We suggest you to adhere to the
following recommendations in order to avoid personal injuries and or property damage.
You have to be familiar with the safety requirements before using the device!
To avoid burning and voltage caused traumas, of the personnel working with the device, please follow these
safety requirements.
The device is intended for supply from a Limited Power Source (LPS) that power consumption
should not exceed 15VA and current rating of overcurrent protective device should not exceed 2A.
The highest transient overvoltage in the output (secondary circuit) of used PSU shall not
exceed 36V peak.
The device can be used with the Personal Computer (first safety class) or Notebook (second
safety class). Associated equipment: PSU (power supply unit) (LPS) and personal computer (PC) shall
comply with the requirements of standard EN 60950-1.
Do not mount or service the device during a thunderstorm.
To avoid mechanical damages to the device it is recommended to transport it packed in a
damage-proof pack.
Protection in primary circuits of associated PC and PSU (LPS) against short circuits and earth
faults of associated PC shall be provided as part of the building installation.
To avoid mechanical damages to the device it is recommended to transport it packed in a damage-proof pack.
While using the device, it should be placed so, that its indicating LEDs would be visible as they inform in which working
mode the device is and if it has any working problems.
Protection against overcurrent, short circuiting and earth faults should be provided as a part of the building
installation.
Signal level of the device depends on the environment in which it is working. In case the device starts working
insufficiently, please refer to qualified personnel in order to repair this product. We recommend forwarding it to a
repair center or the manufacturer. There are no exchangeable parts inside the device.
Device connection
10
1 Introduction
Thank you for purchasing a RUT955 LTE router!
RUT955 is part of the RUT9xx series of compact mobile routers with high speed wireless and Ethernet
connections.
This router is ideal for people who‘d like to share their internet on the go, as it is not restricted by a cumbersome
cable connection. Unrestricted, but not forgotten: the router still supports internet distribution via a broadband cable,
simply plug it in to the wan port, set the router to a correct mode and you are ready to browse.
2 Specifications
2.1 Ethernet




IEEE 802.3, IEEE 802.3u standards
3 x LAN 10/100Mbps Ethernet ports
1 x WAN 10/100Mbps Ethernet port
Supports Auto MDI/MDIX
2.2 Wi-Fi







IEEE 802.11b/g/n WiFi standards
2x2 MIMO
AP and STA modes
64/128-bit WEP, WPA, WPA2, WPA&WPA2 encryption methods
2.401 – 2.495GHz Wi-Fi frequency range*
20dBm max WiFi TX power
SSID stealth mode and access control based on MAC address
*Supported frequency bands are dependent on geographical location and may not be available in all markets.
2.3 Hardware











High performance 560 MHz CPU with 128 Mbytes of DDR2 memory
2 pin industrial DC power socket
Attachable DIN rail adapter
4 pin industrial socket for 2/4 wire RS485
DB9 socket for full-featured RS232
USB A socket for external devices4 pin industrial socket for 2/4 wire RS485
Reset/restore to default button
2 x SMA for LTE , 2 x RP-SMA for WiFi antenna connectors
4 x Ethernet LEDs, 1 x Power LED
1 x bi-color connection status LED, 5 x connection strength LEDs
10 pin industrial socket for inputs/outputs:
- 0 - 3 V digital input
- 0 - 30 V digital galvanically isolated input
- 0 - 24 V analog input 30 V, 250 mA digital open collector output
- 40 V, 4 A SPST relay output
11
2.4 Electrical, Mechanical & Environmental









Dimensions (H x W x D)
Weight
Power supply
Input voltage range
Power consumption
Operating temperature
Storage temperature
Operating humidity
Storage humidity
80mm x 106mm x 46mm
250g
100 – 240 VAC -> 9 VDC wall adapter
9 – 30VDC
< 7W
-40° to 75° C
-45° to 80° C
10% to 90% Non-condensing
5% to 95% Non-condensing
2.5 Applications
12
3 Setting up your router
3.1 Installation
After you unpack the box, follow the steps, documented below, in order to properly connect the device. For
better Wi-Fi performance, put the device in clearly visible spot, as obstacles such as walls and door hinder the signal.
1. First assemble your router by attaching the necessary antennas and inserting the SIM card.
2. To power up your router, please use the power adapter included in the box. (IMPORTANT: Using a different
power adapter can damage and void the warranty for this product.).
3. If you have a wired broadband connection you will also have to connect it to the WAN port of the router.
3.1.1 Front Panel and Back Panel
1,2,3
5,6,7
10
11
12
13
14
15
LAN Ethernet ports
WAN Ethernet port
LAN LEDs
WAN LED
RS485 connector
Power socket
RS232 connector
Inputs and outputs connector
Power LED
Connection LED
Signal strength LED
5,7
LTEauxiliary antenna connector
GPS antenna connector
LTE main antenna connector
USB connector
WiFi antenna connectors
Reset button
3.1.2 Connection status LED indication
Constant blinking (~ 2Hz) – router is turning on.
LED turned off – it has no 4G data connection
LED turned on – it has 4G data connection.
Explanation of connection status LED indication:
1. Green and red blinking alternatively ever 500 ms: no SIM or bad PIN;
2. Green, red and yellow blinking alternatively every 500 ms: connecting to GSM;
3. Red blinking every 1 sec: connected 2G, but no data session established;
4. Yellow blinking every 1 sec: connected 3G, no data session established;
5. Green blinking every 1 sec: connected 4G, no data session established;
Red lit and blinking rapidly while data is being transferred: connected 2G with data session;
Yellow lit and blinking rapidly while data is being transferred: connected 3G with data session;
Green lit and blinking rapidly while data is being transferred: connected 4G with data session;
13
3.1.3 Hardware installation
1. Remove back panel and insert SIM card which was given by your ISP (Internet Service Provider). Correct SIM card
orientation is shown in the picture.
SIM 1 (primary)
SIM 2 (secondary)
2. Attach LTE main and Wi-Fi antennas.
3. Connect the power adapter to the socket on the front panel of the device. Then plug the other end of the power
adapter into a wall outlet or power strip.
4. Connect to the device wirelessly (SSID: Teltonika_Router) or use Ethernet cable and plug it into any LAN Ethernet
port.
14
3.2 Logging in
After you’re complete with the setting up as described in the section above, you are ready to start logging into
your router and start configuring it. This example shows how to connect on Windows 7. On windows Vista: click Start ->
Control Panel -> Network and Sharing Centre -> Manage network Connections -> (Go to step 4). On Windows XP: Click
Start -> Settings -> Network Connections -> (see step 4). You wont’s see “Internet protocol version 4(TCP/IPv4)”, instead
you’ll have to select “TCP/IP Settings” and click options -> (Go to step 6)
We first must set up our network card so that it could properly communicate with the router.
1. Press the start button
2. Type in “network connections”, wait for the results to
pop up.
4. Then right click on your wireless device that you use to
3. Click “View network connections”
connect to other access points (It is the one with the name
“Wireless Network Connection” and has signal bars on its
icon).
15
5. Select Internet Protocol Version 4 (TCP/IPv4) and then click
6. By default the router is going to have DHCP enabled,
Properties
which means that if you select “Obtain an IP address
automatically”
and
“Obtain
DNS
server
address
automatically”, the router should lease you an IP and you
should be ready to login.
7. If you choose to configure manually here’s what you do:
First select an IP address. Due to the stock settings that your router has arrived in you can only enter an IP in the
form of 192.168.1.XXX , where XXX is a number in the range of 2-254 (192.168.1.2 , 192.168.1.254 , 192.168.1.155 and
so on… are valid; 192.168.1.0 , 192.168.1.1 , 192.168.1.255 , 192.168.1.699 and so on… are not). Next we enter the
subnet mask: this has to be “255.255.255.0”. Then we enter the default gateway: this has to be “192.168.1.1”. Finally we
enter primary and secondary DNS server IPs. One will suffice, though it is good to have a secondary one as well as it will
act as a backup if the first should fail. The DNS can be your routers IP (192.168.1.1), but it can also be some external DNS
server (like the one Google provides: 8.8.8.8).
16
Right click on the Wireless network icon and select Connect / Disconnect. A list should pop up with all available
wireless networks. Select “Teltonika” and click connect.Then we launch our favorite browser and enter the routers IP
into the address field:
Press enter. If there are no problems you should be greeted with a login screen such as this:
Enter the default password, which is “admin01” into the “Password” field and then either click Login with your
mouse or press the Enter key. You have now successfully logged into the RUT955!
From here on out you can configure almost any aspect of your router.
17
4 Operation Modes
The RUT9xx series router supports various operation modes. It can be connected to the internet (WAN) via
mobile, standard Ethernet cable or via a wireless network. When connecting to the internet, you may also backup your
main WAN connection with one or two backup connections. Any interface can act like backup if configured so. At first
router uses its main WAN connection, if it is lost then router tries to connect via backup with higher priority and if that
fails too, router tries the second backup option.
WAN
Mobile
Ethernet
Wi-Fi
Main WAN
√
√
√
Backup WAN
√
√
√
LAN
√
√
In later sections it will be explained, in detail, how to configure your router to work in a desired mode.
18
5 Powering Options
The RUT9xx router can be powered from power socket or over Ethernet port. Depending on your network
architecture you can use LAN 1 port to power the device.
RUT9xx can be powered from power socket and over Ethernet simultaneously. Power socket has higher priority
meaning that the device will draw power from power socket as long as it is available.
When RUT9xx is switching from one power source to the other it loses power for a fraction of the second and
may reboot. The device will function correctly after the reboot.
Though the device can be powered over Ethernet port it is not compliant with IEEE 802.3af-2003 standard.
Powering RUT9xx from IEEE 802.3af-2003 power supply will damage the device as it is not rated for input voltages of
PoE standard.
5.1 Powering the device from higher voltage
If you decide not to use our standard 9 VDC wall adapters and want to power the device from higher voltage (15 –
30 VDC) please make sure that you choose power supply of high quality. Some power supplies can produce voltage
peaks significantly higher than the declared output voltage, especially during connecting and disconnecting them.
While the device is designed to accept input voltage of up to 30 VDC peaks from high voltage power supplies can
harm the device. If you want to use high voltage power supplies it is recommended to also use additional safety
equipment to suppress voltage peaks from power supply.
19
6 Status
The status section contains various information, like current IP addresses of various network interfaces; the state
of the routers memory; firmware version; DHCP leases; associated wireless stations; graphs indicating load, traffic, etc.;
and much more.
6.1 Overview
O Overview section contains various information summaries.
6.2 System Information
The System Information tab contains data that pertains to the routers operating system.
20
System explanation:
Field Name
Sample value
1. Router Name
RUT955
2.
Host name
Teltonika-RUT955.com
3.
4.
Router Model
Firmware
Version
Teltonika RUT955 LTE
RUT9XX_R_00.02.376
5.
6.
Kernel Version
Local Time
3.10.36
2016-05-24, 11:02:39
7.
Uptime
0d 0h 44m 1s (since
2016-05-24, 10:19:03)
8.
Load Average
1 min: 88%; 5 mins:
73%; 15 mins: 42%
9.
Temperature
34.9° C
Memory explanation:
Field Name Sample Value
1. Free
84584 kB /126556 kB (66%)
Explanation
Name of the router (hostname of the routers system). Can be changed
in System -> Administration.
Indicates how router will be seen by other devices on the network. Can
be changed in System -> Administration.
Routers model.
Shows the version of the firmware that is currently loaded in the router.
Newer versions might become available as new features are added. Use
this field to decide whether you need a firmware upgrade or not.
The version of the Linux kernel that is currently running on the router.
Shows the current system time. Might differ from your computer,
because the router synchronizes it's time with an NTP server.Format
[year-month-day, hours:minutes:seconds].
Indicates how long it has been since the router booted up. Reboots will
reset this timer to 0.Format *day’s hours minutes seconds (since yearmonth-day, hours: minutes: seconds)].
Indicates how busy the router is. Let's examine some sample output: "1
min: 88%, 5 mins: 73%, 15 mins: 42%". The first number mean past
minute and second number means that in the past minute there have
been, on average, 88% processes running or waiting for a resource.
Device’s temperature
Explanation
The amount of memory that is completely free. Should this rapidly
decrease or get close to 0, it would indicate that the router is running
out of memory, which could cause crashes and unexpected reboots.
21
2.
Cached
14784 kB /126556 kB (11%)
3.
Buffered
5504 kB / 126556 kB (4%)
The size of the area of memory that is dedicated to storing frequently
accessed data.
The size of the area in which data is temporarily stored before moving
it to another location.
6.3 Network Information
6.3.1.1 Mobile
Display information about mobile modem connections.
Mobile information:
Field Name
1.
Data connection
state
2.
IMEI
3.
IMSI
Sample Value
Connected
Explanation
Mobile data connection status
860461024350889
246012101426458
Modem's IMEI (International Mobile Equipment Identity) number
IMSI (International Mobile Subscriber Identity) is used to identify
the user in a cellular network
Indicates the SIM card's state, e.g. PIN required, Not inserted, etc.
Received Signal Strength Indicator (RSSI). Signal's strength
measured in dBm
ID of operator cell that device is currently connected to
Indicates the Reference Signal Received Power
Indicates the Reference Signal Received Quality
Indicates the Signal to Interference plus Noise Ratio
Operator's name of the connected GSM network
GSM network's status
Indicates the GSM network's access technology
How many bytes were received via mobile data connection
4.
5.
SIM card state
Signal strength
Ready
-88 dBm
6.
7.
8.
9.
10.
11.
12.
13.
Cell ID
RSRP
RSRQ
SINR
Operator
Operator state
Connection type
Bytes received
2C86315
-119 dBm
-11 dBm
-1.2 dBm
OMNITEL LT
Registered (home)
4G (LTE)
39.9 KB (40832
bytes)
22
14.
Bytes sent
27.0 KB (27674
bytes)
How many bytes were sent via mobile data connection
6.3.1.2 WAN
Display information about WAN connection.
WAN information:
Field Name
1.
Interface
Sample Value
Mobile
2.
3.
5.
6.
Type
IP address
Netmask*
Gateway*
NDIS
10.22.20.146
255.255.255.252
10.22.20.145
7.
DNS*
8.
Explanation
Specifies through what medium the router is connecting to the internet.
This can either be Wired, Mobile or Wi-Fi.
Specifies the type of connection. This can either be static or DHCP.
The IP address that the routers uses to connect the internet.
Specifies a mask used to define how large the WAN network is
Indicates the default gateway, an address where traffic destined for the
internet is routed to.
Domain name server(s).
213.226.131.131 /
193.219.88.36
Connected* 0h 56m 4s
How long the connection has been successfully maintained.
*-These fields show up on other connection modes.
**-Exclusive to other Modes with DHCP.
6.3.1.3 LAN
Display information about LAN connections.
23
LAN information:
Field Name
1. Name
2. IP address
3. Netmask
4. Ethernet LAN
MAC address
5. Connected for
Sample Value
Lan
192.168.99.218
255.255.255.0
00:1E:42:00:00:00
1h 53m 56s
Explanation
Lan instance name
Address that the router uses on the LAN network.
A mask used to define how large the LAN network is
MAC (Media Access Control) address used for communication in a Ethernet
LAN (Local Area Network)
How long LAN has been successfully maintained.
DHCP Leases
If you have enabled a DHCP server this field will show how many devices have received an IP address and what
those IP addresses are.
1.
2.
Field Name
Hostname
IP address
Sample Value
192.168.99.120
3.
4.
Lan name
MAC address
Lan
D4:85:64:65:2B:D4
5.
Lease time
remaining
10h 11m 13s
Explanation
DHCP client's hostname
Each lease declaration includes a single IP address that has been leased to
the client
Lan instance name
The MAC (Media Access Control) address of the network interface on
which the lease will be used. MAC is specified as a series of hexadecimal
octets separated by colons
Remaining lease time for addresses handed out to clients
6.3.1.4 Wireless
Wireless can work in two modes, Access Point (AP) or Station (STA). AP is when the wireless radio is used to
create an Access Point that other devices can connect to. STA is when the radio is used to connect to an Access Point via
WAN.
24
6.3.1.4.1 Station
Display information about wireless connection (Station mode).
Client mode information
Field Name
Sample Value
1. Channel
1 (2.41 GHz)
2. Country
3. SSID
4. Mode
00
Teltonika_Router
Station (STA)
5. Encryption
WPA2 PSK (CCMP)
6. Wireless MAC
7. Signal Quality
00:1E:42:10:80:22
61%
8. Bit rate
43.3 MBit/s
Explanation
The channel that the AP, to which the routers is connected to, uses.
Your wireless radio is forced to work in this channel in order to
maintain the connection.
Country code.
The SSID that the AP, to which the routers is connected to, uses.
Connection mode – Client indicates that the router is a client to
some local AP.
The AP, to which the router is connected to, dictates the type of
encryption.
The MAC address of the access points radio.
The quality between routers radio and some other device that is
connecting to the router. Will show 0% if no devices are trying to
connect or are currently maintaining a connection.
The physical maximum possible throughput that the routers radio
can handle. Keep in mind that this value is cumulative - The bitrate
will be shared between the router and other possible devices that
connectto the local AP.
6.3.1.4.2 Access Point
Displays information about wireless connection (Access Point mode).
25
Wireless AP information
Field Name
Sample Value
1. Channel
11 (2.46 GHz)
2.
3.
Country code
SSID
00(World)
Teltonika_Router_Test
4.
Mode
Access Point (AP)
5.
Encryption
No Encryption
6.
7.
Wireless MAC
Signal Quality
00:1E:42:00:00:03
80%
8.
Bit rate
54.0 MBit/s
Explanation
The channel which is used to broadcast the SSID and to establish
new connections to devices.
Country code.
The SSID that is being broadcast. Other devices will see this and will
be able to use to connect to your wireless network.
Connection mode – Master indicates that you router is an access
point.
The type of encryption that the router will use to authenticate,
establish and maintain a connection.
MAC address of your wireless radio.
The quality between routers radio and some other device that is
connecting to the router. Will show 0% if no devices are trying to
connect or are currently maintaining a connection.
The bitrate will be shared between all devices that connect to the
routers wireless network.
Additional note: MBit/s indicates the bits not bytes. To get the throughput in bytes divide the bit value by 8, for
e.g. 54MBits/s would be 6.75MB/s (Mega Bytes per second).
6.3.1.5 Associated Stations
Outputs a list of all devices and their MAC addresses that are maintain a connection with your router right now.
This can either be the information of the Access Point that the router is connecting to in STA mode or a list of all
devices that are connecting to the router in AP mode:
1.
2.
Field Name
MAC Address
Device Name
3.
Signal
Sample Value
FC:C2:DE:91:36:A6
Android9aed2b2077a54c74
-54dBm
Explanation
Associated station's MAC (Media Access Control) address
DHCP client's hostname
Received Signal Strength Indicator (RSSI). Signal's strength measured
26
4.
RX Rate
5.
TX Rate
24.0Mbit/s, MCS 0,
20MHz
54.0Mbit/s, MCS 0,
20MHz
in dBm
The rate at which packets are received from associated station
The rate at which packets are sent to associated station
6.3.1.6 OpenVPN Client
Display OpenVPN connection information on client side.
Field Name
1. Enabled
2. Status
3. Type
4. IP
5. Mask
6. Time
Sample Value
Yes/No
Connected
Client
10.0.0.2
255.255.255.255
0h 0m 13s
Explanation
OpenVPN status
Connection status
A type of OpenVPN instance that has been created
Remote virtual network's IP address
Remote virtual network's subnet mask
For how long the connection has been established
6.3.1.7 OpenVPN Server
Display OpenVPN connection information on server side.
1.
2.
Field Name
Enabled
Status
Sample Value
Yes/No
Connected
Explanation
OpenVPN status
Connection status
27
2.
3.
4.
5.
Type
IP
Mask
Time
Server
10.0.0.1
255.255.255.255
0h 3m 24s
A type of OpenVPN instance that has been created
Remote virtual network's IP address
Remote virtual network's subnet mask
For how long the connection has been established
6.3.1.8 Clients information
It will show information, when router is configured as OpenVPN TLS server.
1.
2.
3.
4.
Field Name
Common Name
Real Address
Virtual Address
Connection Since
6.3.1.9
Sample Value
Test001
212.59.13.225:52638
10.0.0.6
Thu May 05 2016
07:46:29 GMT + 0300
(FLE Standard Time)
Explanation
Client connection
Client’s IP address and port number
Virtual address which has been given to a client
Since when connection has been established
VRRP
VRRP (Virtual Router Redundancy Protocol) for LAN
1.
2.
Field Name
Status
Virtual IP
Sample Value
Enabled
192.168.1.253
3.
Priority
100
Explanation
VRRP status
Virtual IP address(- es) for LAN’s VRRP (Virtual Router Redundancy
Protocol ) cluster
Router with highest priority value on the same VRRP (Virtual Router
28
4.
Router**
Master
**-Exclusive to other Modes with Slave.
Redundancy Protocol) cluster will act as a master, range [1 - 255]
Connection mode – Master
6.3.1.10 Topology
Network scanner allows you to quickly retrieve information about network devices. When router is configured to
use Mobile as WAN and Connection type is selected „PPP“, then possible to scan only the LAN side.
6.3.1.11 Access
Display information about local and remote active connections status.
1.
2.
3.
4.
Field Name
Type
Status
Port
Active
Sample Value
SSH; HTTP; HTTPS
Disabled/Enabled
22; 80; 443
0(0.00B);1(9.26 KB);
Explanation
Type of connection protocol
Connection status
Connection port used
Count of active connections and amount of data transmitted in KB
29
Connections
6(558.12 KB)
**-Exclusive to other Modes with Slave.
6.3.1.11.1 Last Connections
Displays information about local and remote last 3 connections status
1.
2.
3.
4.
Field Name
Type
Date
IP
Authentications
Status
Sample Value
SSH; HTTP; HTTPS
2016-03-03, 13:40:59
192.168.2.10
Failed; Succeed
Explanation
Type of connection protocol
Date and time of connection
IP address from which the connection was made
Status of authentication attempt
6.4 Device information
The page displays factory information that was written into the device during manufacturing process.
30
1.
2.
3.
4.
5.
6.
6.
7.
8.
9.
10.
Field Name
Serial number
Product code
Batch number
Hardware revision
IMEI
IMSI
Ethernet LAN MAC
Ethernet WAN
MAC
Wireless MAC
Model
FW version
Sample Value
15981598
RUT95517V000
1010
0202
860425471954819
246022547254719
00:1E:42:10:42:00
00:1E:42:10:42:01
Explanation
Serial number of the device
Product code of the device
Batch number used during device’s manufacturing process
Hardware revision of the device
Identification number of the internal modem
Subscriber identification number of the internal modem
MAC address of the Ethernet LAN ports
MAC address of the Ethernet WAN port
00:1E:42:10:42:02
ME909-521
12.631.07.01.00
MAC address of the Wi-Fi interface
Router’s modem model
Router’s modem firmware version
31
6.5 Services
The page displays usage of the available services.
1.1 Routes
The page displays ARP table and active IP routes of the device.
6.5.1 ARP
Show the routers active ARP table. An ARP table contains recently cached MAC addresses of every immediate
device that was communicating with the router.
1.
Field Name
IP Address
Sample Value
192.168.99.17
2.
MAC Address
00:25:22:D7:CA:A7
3.
Interface
br-lan
Explanation
Recently cashed IP addresses of every immediate device that was
communicating with the router
Recently cached MAC addresses of every immediate device that was
communicating with the router
Interface used for connection
32
6.5.2 Active IP-Routes
Show the routers routing table. The routing table indicates where a TCP/IP packet, with a specific IP address,
should be directed to.
1.
2.
Field Name
Network
Target
Sample Value
ppp
192.168.99.0/24
3.
4.
IP Gateway
Metric
0.0.0.0
Explanation
Interface to be used to transmit TCP/IP packets through
Indicates where a TCP/IP packet, with a specific IP address, should
be directed
Indicates through which gateway a TCP/IP packet should be directed
Metric number indicating interface priority of usage
6.5.3 Active IPv6-Routes
Display active IPv6 routes for data packet transition.
1.
2.
Field Name
Network
Target
Sample Value
loopback
0:0:0:0:0:0:0:0/0
3.
4.
IPv6-Gateway
Metric
0:0:0:0:0:0:0:0/0
FFFFFFFF
6.6
Explanation
Network interface used
Indicates where a TCP/IP packet, with a specific IP address, should
be directed
Indicates through which gateway a TCP/IP packet should be directed
Metric number indicating interface priority of usage
Graphs
Real-time graphs show how various statistical data changes over time.
6.6.1 Mobile Signal Strength
Displays mobile signal strength variation in time (measured in dBm)
33
1.
2.
3.
4.
Field Name
Connection type
Signal
Average
Peak
Sample Value
3G (WCDMA)
-72 dBm
-72.0 dBm
-72 dBm
Explanation
Type of mobile connection used
Current signal strength value
Average signal strength value
Peak signal strength value
6.6.2 Realtime Load
This tri-graph illustrates average CPU load values in real time. The graph consists out of three color coded graphs,
each one corresponding to the average CPU load over 1 (red), 5 (orange) and 15 (yellow) most recent minutes.
1.
2.
3.
Field Name
1/5/15 Minutes
Load
Average
Peak
Sample Value
0.83
Explanation
Time interval for load averaging, colour of the diagram
0.86
1.50
Average CPU load value over time interval (1/5/15 Minute)
Peak CPU load value of the time interval
34
6.6.3 Realtime Traffic
This graph illustrates average system inbound and outbound traffic over the course of ~3 minutes; each new
measurement is taken every 3 seconds. The graph consists out of two colors coded graphs (green graph shows the
outbound traffic, blue graph shows inbound traffic). Although not graphed, the page also displays peak loads and
average of inbound and outbound traffic.
1.
Field Name
Bridge
Explanation
Cumulative graph, which encompasses wired Ethernet LAN and the wireless network.
2.
LAN
Graphs the total traffic that passes through both LAN network interfaces.
3.
WAN (Wired)
Graphs the amount of traffic which passed through the current active WAN connection.
4.
Mobile
Graphs the amount of traffic which passed through the mobile network connection.
5.
Wi-Fi
Shows the amount of traffic that has been sent and received through the wireless radio.
35
6.6.4 Realtime Wireless
Display the wireless radio signal, signal noise and theoretical maximum channel permeability. Average and peak
signal levels are displayed.
36
6.6.5 Realtime Connections
Displays currently active network connections with the information about network, protocol, source and
destination addresses, transfer speed.
37
6.7
Mobile Traffic
Displays mobile connection data sent and received in KB of this day, week, Month.
By default mobile traffic usage logging is disabled. To use this functionality is needed to enable it.
1.
2.
Field Name
Enable
Interval between
records (sec)
6.8
Sample Value
Enable/Disable
60
Explanation
Make a functionality active/inactive
The interval between logging records (minimum 60 sec)
Speed Test
Speed test is a tool for measuring your internet connection upload and download speeds. You can select servers
for manual testing, or use auto test.
38
6.9
Events Log
Event log displays such actions as: login, reboot, firmware flashing and reset.
6.9.1 All Events
Display all router events, their types and time of occurrence.
39
6.9.2 System Events
Display all system events, their type and time of occurrence. Events include authentication or reboot requests,
incoming and outgoing SMS and calls, Mails, Configuration changes, DHCP events.
40
6.9.3 Network Events
Display information about recent network events like connection status change, lease status change, network
type or operator change.
41
6.9.4 Events Reporting
Allow to view, enable/disable or modify created rules for events reporting.
6.9.4.1 Events Reporting Configuration
Allow to review created rules details and modify them, so after event occurrence, messages or emails are sent to
specified address or phone numbers with information about the event.
Field Name
Sample Value
Explanation
42
1.
2.
3.
Enable
Event type
Event subtype
4.
5.
6.
Event subtype
Action
Enable delivery
retry
Message text on
Event
7.
9.
Get status after
reboot
Recipient‘s
phone number
Enable/Disable
Reboot
After unexpected shut
down
All/Loaded
Send SMS
Enable/Disable
Make a rule active/inactive
Select event type about which occurrence information will be sent
Specify event subtype to activate the rule
Router name - %rn;
Event type - %et; Event
text - %ex; Time stamp
- %ts;
Enable/Disable
Message text on specific event
+123456789
For whom you want to send a SMS
Event subtype for which the rule is applied
Action to perform when an event occurs
Enables to send SMS again if first try to send SMS was unsuccessful.
Receive router status information after reboot
6.9.5 Reporting Configuration
Displays configured services for event reporting, allows enabling, disabling, viewing and modifying parameters.
6.9.5.1 Events Log Report Configuration
Allow to change the configuration of periodic events reporting to email or FTP.
43
FTP:
1.
2.
3.
4.
5.
Field Name
Enable
Events log
Transfer type
Compress file
Host
Sample Value
Enable/Disable
System
FTP
Enable
192.168.123.123
6.
User name
Username
7.
Password
password
8.
Interval
between
reports
Weekday
Hour
Week
Explanation
Make a rule active/inactive
Events log for which the rule is applied
Events log file transfer type: Email/FTP
Enable/disable compress events log file using gzip
FTP (File Transfer Protocol) host name, e.g. ftp.exemple.com,
192.168.123.123. Allowed characters (a-z-A-Z0-9!@#$%^&*+-/=?_`{|}~. )
User name for authentication on SMTP (Simple Mail Transfer Protocol) or
FTP (File Transfer Protocol) server. Allowed characters (a-z-A-Z09!@#$%^&*+-/=?_`{|}~. )
Password for authentication on SMTP (Simple Mail Transfer Protocol) or FTP
(File Transfer Protocol) server. Allowed characters (a-z-A-Z0-9!@#$%^&*+/=?_`{|}~. )
Send report every selected time interval
Monday
12
Day of the week to get events log report
Hour of the day to get events log report
9.
10.
Email:
44
10.
Field Name
Enable
Events log
Transfer type
Compress file
Subject
Message
SMTP server
SMTP server
port
Secure
connection
User name
11.
Password
12.
Sender‘s email
address
Recipient‘s
email address
Interval
between
reboots
Weekday
Hour
1.
2.
3.
4.
5.
6.
7.
8.
9.
13.
14.
15.
16.
Sample Value
Enable/Disable
System
Email
Enable
Subject
YourMessage
smtp.gmail.com
25
Explanation
Make a rule active/inactive
Event log for which the rule is applied
Events log file transfer type: Email/FTP
Enable/disable compress events log file using gzip
Subject of an email
Message to send in email
SMTP (Simple Mail Transfer Protocol) server address
SMTP (Simple Mail Transfer Protocol) server port
Enable/Disable
Enables/disables secure connection. Use only if server supports
SSL or TLS
User
User name for authentication on SMTP (Simple Mail Transfer
Protocol)
●●●●●●●
User password for authentication on SMTP (Simple Mail
Transfer Protocol)
sendersemail@example.com An address that will be used to send your email from. Allowed
characters (a-zA-Z0-9._%+-)
recipientemail@example.com For whom you want to send an email to. Allowed characters (azA-Z0-9._%+-)
Week
Send report every select time interval
Sunday
Day of the week to get events log report
Hour of the day to get events log report
45
7 Network
7.1
Mobile
7.1.1 General
7.1.1.1 Mobile configuration
Here you can configure mobile settings which are used when connecting to your local 3G/LTE network.
1.
2.
3.
4.
5.
6.
7.
8.
Field Name
Connection
type
Sample value
PPP / NDIS
Explanation
PPP mode uses dialling number to establish data connection.
NDIS mode (default) does not use dialling and PPP protocol to
establish data connection it is usually faster than PPP mode.
Mode
NAT / Passthrough / Use NAT mode enables network address translation on router. Bridge
bridge
mode bridges LTE data connection with LAN. In this mode the router
does not have internet connection as ISP provides IP directly to end
device (PC, tablet or smart phone).Using Bridge mode will disable
most of the router capabilities and you can access your router's
settings only by using static IP address on your end device.
Passthrough mode is similar with bridge mode except that in
passthrough mode router does have internet connection.
APN
“APN”
Access Point Name (APN) is a configurable network identifier used
by a mobile device when connecting to a GSM carrier.
PIN number
“1234” or any number
A personal identification number is a secret numeric password
that falls between 0000 shared between a user and a system that can be used to
and 9999
authenticate the user to the system.
Dialing
*99***1#
Dialling number is used to establish a mobile PPP (Point-to-Pointnumber
Protocol) connection.
Authentication CHAP, PAP or none
Authentication method, which your carrier uses to authenticate new
method
connections. (This selection is unavailable on the alternate model)
Username
“username”
Your username that you would use to connect to your carriers
network. This field becomes available when you select an
authentication method (i.e. authentication method is not “none”).
These fields are always enabled on the alternate model.
Password
“password”
Your password that you would use to connect to your carriers
network. This field becomes available when you select an
authentication method (i.e. authentication method is not “none”).
These fields are always enabled on the alternate model.
46
9.
Service mode
2G only, 2G preferred,
3G only, 3G preferred,
4G (LTE) only, 4G (LTE)
preferred or automatic.
10.
Deny data
roaming
Use IPv4 only
Enable/Disable
11.
Enable / Disable
Your network preference. If your local mobile network supports 2G,
3G and 4G (LTE) you can specify to which network you wish to
connect. E.g.: if you choose 2G, the router will connect to a 2G
network, so long as it is available, otherwise it will connect to a
network that provides better connectivity. If you select auto, then
the router will connect to the network that provides better
connectivity.
If enabled this function prevents the device from establishing mobile
data connection while not in home network.
If enabled this function makes the device to use only IPv4 settings
when connecting to operator.
Warning: If an invalid PIN number was entered (i.e. the entered PIN does not match the one that was used to
protect the SIM card), your SIM card will get blocked. To avoid such mishaps it is highly advised to use an unprotected
SIM. If you happen to insert a protected SIM and the PIN number is incorrect, your card won’t get blocked immediately,
although after a couple of reboots OR configuration saves it will.
7.1.1.1.1 Passthrough mode
Using Passthrough Mode will disable most of the router capabilities!
DHCP mode: Static
Enter your computer MAC address (xx:xx:xx:xx:xx:xx) to MAC Address field and select Lease time (expire time for
lease addresses). Device, which MAC address will be entered, will get IP from GSM operator. Other connected devices to
the router LAN will get IP from router DHCP server, but these devices will not have internet access.
DHCP mode: Dynamic
Using Dynamic mode, device will get IP from GSM operator , which connect to the router firstly. Using
Passthrough in dynamic mode, the DHCP in LAN will be disabled.
DHCP mode: No DHCP
Using no DHCP mode, IP (also subnet, gateway and DNS) from GSM operator should be entered in device, which is
connected to the router LAN, manually. Using Passthrough in no DHCP mode, the DHCP in LAN will be disabled.
47
7.1.1.2 Mobile Data On Demand
1.
2.
Field name
Enable
Possible values
Enable/Disable
No data
timeout(sec)
1-99999999
Explanation
Mobile Data On Demand function enables you to keep mobile data connection
on only when it's in use
A mobile data connection will be terminated if no data is transferred during the
timeout period
7.1.1.3 Force LTE network
Field name
1.
Enable
2.
3.
Reregister
Interval (sec)
Possible
Explanation
values
Enable/Disable Enable/disable try to connect to LTE network every x seconds (used only if
service mode is set to 4G (LTE) preferred)
Enable/Disable If this enabled, modem will be reregister before try to connect to LTE network
180 - 3600
Time in seconds between tries to connect to LTE network. Range [180-3600]
48
7.1.2 SIM Management
Possible values
SIM 1 / SIM 2
Enable/Disable
3.
4.
Field name
Primary SIM card
Enable automatic
switching
Check interval
On weak signal
5.
On data limit*
Enable/Disable
6.
On SMS limit*
Enable/Disable
7.
8.
9.
10.
On roaming
No network
On network denied
On data connection
fail
Enable/Disable
Enable/Disable
Enable/Disable
Enable/Disable
1.
2.
1-3600
Enable/Disable
Explanation
SIM card that will be used in the system as a primary SIM card
Automatically switch between primary and secondary SIM cards
based on the various rules and criterions defined below
Check interval in seconds
Perform a SIM card switch when a signal's strength drops below a
certain threshold
Perform a SIM card switch when mobile data limit for your current
SIM card is exceeded
Perform a SIM card switch when SMS limit for your current SIM card
is exceeded
Perform a SIM card switch when roaming is detected
Perform a SIM card switch when no operator is detected
Perform a SIM card switch when network is denied
Perform a SIM card switch when data connection fails
* Your carrier's data usage accounting may differ. Teltonika is not liable should any accounting discrepancies occur.
49
7.1.3 Network Operators
7.1.3.1 Network Operators
This function lets you Scan, Select and enter manual Network Operator to which router should connect. Function
will provide great utility when router is in Roaming conditions. Operator is selected only for the active SIM card. In order
to specify operator for the other SIM card it must first be selected as primary SIM in “SIM Management”.
1.
2.
Field Name
SIM card in use
Current operator
Sample Value
SIM 1 / SIM 2
OMNITEL LT
Explanation
Shows current SIM card’s in use
Operator's name of the connected GSM network
Note: after clicking Scan for operators’ button- You will lose current mobile connection! For changing network operator
status have to be available. There is manual connection to network operator, you have to fill numeric name, and it’s
have to be available.
7.1.3.2 Operator List
This function lets to create white list/black list based on operator’s code.
50
1.
2.
Field name
Enable
Mode
Possible values
Enable/Disable
White list/Black list
3.
4.
Name
Operator code
Tele2 LT
24603
Explanation
Enable/disable operators blocking
White list - allows every operator on the list and blocks everything else.
Black list – block every operator on the list and allow everything else
Operator’s name
Operator’s code
7.1.4 Mobile Data Limit
This function lets you limit maximum amount of data transferred on WAN interface in order to minimize
unwanted traffic costs.
7.1.4.1 Data Connection Limit Configuration
Field Name
1. Enable data
connection limit
2. Data limit* (MB)
3. Period
4. Start day/ Start hour
Sample value
Enable/Disable
Explanation
Disables mobile data when a limit for current period is reached
200
Month/Week/Day
Disable mobile data after limit value in MB is reached
Period for which mobile data limiting should apply
A starting time for mobile data limiting period
* Your carrier's data usage accounting may differ. Teltonika is not liable should any accounting discrepancies occur.
51
7.1.4.2 SMS Warning Configuration
1.
Field Name
Enable SMS warning
Sample value
Enable/Disable
2.
3.
4.
5.
Data limit* (MB)
Period
Start day/ Start hour
Phone number
300
Month/Week/Day
+37012345678
Explanation
Enables sending of warning SMS message when mobile data limit for
current period is reached
Send warning SMS message after limit value in MB is reached
Period for which mobile data limiting should apply
A starting time for mobile data limiting period
A phone number to send warning SMS message to, e.g.
+37012345678
* Your carrier's data usage accounting may differ. Teltonika is not liable should any accounting discrepancies occur.
7.1.5 SIM Idle protection
Some operators block user SIM cards after period of inactivity. This function enables router to periodically switch
to secondary SIM card and establish data connection with mobile network in order to prevent SIM card blocking.
7.1.5.1 Settings
1.
2.
3.
4.
5.
6.
7.
8.
Field Name
Enable
Period
Day
Hour
Minute
Host to ping
Ping package
size
Ping requests
Sample value
Enable/Disable
Month / Week
1-31 / Monday Sunday
1-24
1-60
8.8.8.8
56
Explanation
Enables SIM idle protection
Switches between monthly and weekly SIM activation periods
Specifies the day for SIM idle protection activation, 1-31 if Period is
Month, and Monday – Sunday if period is week.
Specifies the hour for SIM idle protection activation
Specifies the minute for SIM idle protection activation
Specifies IP address or domain name to send data packages to
Specifies ping Package size in bytes
Specifies requests to be sent
52
7.1.5.2 Test
Tests the functioning of idle protection with your parameters entered at settings tab.
1.
2.
3.
4.
Field Name
SIM
SIM state
Host IP
Ping
Sample value
SIM1 / SIM2
OK (inserted)
8.8.8.8
Success
7.2
Explanation
Displays SIM number
Displays status of the SIM card
Displays the IP of the Host
Displays status of ping attempt
WAN
7.2.1 Operation Mode
Your WAN configuration determines how the router will be connecting to the internet.
3.
Type
Main WAN
Backup
WAN/Load
balancing
Interface Name
4.
5.
6.
Protocol
IP Address
Sort
1.
2.
Explanation
Switches between Mobile, Wired and Wi-Fi interface for main WAN
Let’s user to select one or two interfaces for WAN backup
Displays WAN interface name, and changes interface priority, the interface at the table top has
the highest priority
Displays protocol used by WAN interface
Displays IP address acquired by specific interface
Sorts table rows and changes interface priority, the highest interface has highest priority
53
7.2.2 Common configuration
Common configuration allows you to configure your TCP/IP settings for the wan network.
You can switch between the Static, DHCP or PPPoE protocol by selecting the protocol that you want to use and
then pressing Switch Protocol.
7.2.2.1 General Setup
7.2.2.1.1 Static:
This is the configuration setup for when you select the static protocol.
1.
2.
3.
4.
5.
Filed name
IPv4 address
IPv4 netmask
IPv4 gateway
IPv4 broadcast
Sample
192.168.99.162
255.255.255.0
192.168.99.254
192.168.99.255
Use custom DNS
servers
8.8.8.8
8.8.6.6
Explanation
Your routers address on the WAN network
A mask used to define how “large” the WAN network is
Address where the router will send all the outgoing traffic
Broadcast address (auto generated if not set). It is best to leave this
blank unless you know what you are doing.
Usually the gateway has some predefined DNS servers. As such the
router, when it needs to resolve a hostname (“www.google.com”,
“www.cnn.com”, etc…) to an IP address, it will forward all the DNS
requests to the gateway. By entering custom DNS servers the router
will take care of host name resolution. You can enter multiple DNS
servers to provide redundancy in case the one of the server fails.
54
7.2.2.1.2 DHCP:
When you select the DHCP protocol you can use it as is, because most networks will not require any additional
advanced configuration.
7.2.2.1.3 PPPoE
This protocol is mainly used by DSL providers:
This is the configuration setup for when you select PPPoE protocol.
1.
Filed name
PAP/CHAP username
Sample
test
2.
3.
PAP/CHAP password
Access Concentrator
your_password
auto
4.
Service Name
auto
Explanation
Your username and password that you would use to connect to your
carriers network.
A mask used to define how “large” the WAN network is
Specifies the name of access concentrator. Leave empty to auto
detect.
Specifies the name of the service. Leave empty to auto detect.
7.2.2.2 Advanced
These are the advanced settings for each of the protocols, if you are unsure of how to alter these attributes it is
highly recommended to leave them to a trained professional:
55
7.2.2.2.1 Static
1.
Field name
Disable NAT
Override MAC address
Sample value
On/Off
86:48:71:B7:E9:E4
3.
Override MTU
1500
4.
Use gateway metric
Explanation
Toggle NAT on and off.
Override MAC address of the WAN interface. If your ISP gives you
a static IP address it might also bind it to your computers MAC
address (i.e. that IP will only work with your computer). In this
field you can enter your computers MAC address and fool the
gateway in thinking that it is communicating with your computer.
Maximum Transmission Unit – specifies the largest possible size
of a data packet.
The WAN configuration by default generates a routing table
entry. With this field you can alter the metric of that entry.
7.2.2.2.2 DHCP
Field name
Disable NAT
Sample value
Enable/Disable
Enable/Disable
Enable/Disable
Enable/Disable
5.
Use broadcast flag
Use default gateway
Use DNS server
advertised by peer
User gateway metric
6.
Client ID to send when
1.
3.
4.
Explanation
If checked, router will not perform NAT (masquerade) on this
interface
Required for certain ISPs, e.g. Charter with DOCSIS 3
If unchecked, no default route is configured
If unchecked, the advertised DNS server addresses are ignored
The WAN configuration by default generates a routing table entry
With this field you can alter the metric of that entry
Specify client ID which will be sent when requesting DHCP
56
8.
requesting DHCP
Vendor Class to send
when requesting DHCP
Override MAC address
86:48:71:B7:E9:E4
9.
Override MTU
1500
7.
(Dynamic Host Configuration Protocol)
Specify vendor class which be sent when requesting DHCP
(Dynamic Host Configuration Protocol)
Override MAC address of the WAN interface. If your ISP gives you
a static IP address it might also bind it to your computers MAC
address (i.e. that IP will only work with your computer). In this
field you can enter your computers MAC address and fool the
gateway in thinking that it is communicating with your computer.
Maximum transmission unit – specifies the largest possible size of
a data packet.
7.2.2.2.3 PPPoE
Field name
Disable NAT
Sample value
Enable/Disable
Enable/Disable
Enable/Disable
6.
Use default gateway
Use gateway metric
Use DNS servers
advertised by peer
LCP echo failure
threshold
LCP echo interval
7.
Inactivity timeout
1.
3.
4.
5.
Explanation
If checked, router will not perform NAT (masquerade) on this
interface
If unchecked, no default route is configured
If unchecked, the advertised DNS server addresses are ignored
Presume peer to be dead after given amount of LCP echo failures,
use 0 to ignore failures
Send LCP echo requests at the given interval in seconds, only
effective in conjunction with failure threshold
Close inactive connection after the given amount of seconds, use
0 to persist connection
7.2.2.2.4 IP Aliases
IP aliases are a way of defining or reaching a subnet that works in the same space as the regular network.
57
As you can see, the configuration is very similar to the static protocol; only in the example a 99th subnet is
defined. Now if some device has an IP in the 99 subnet (192.168.99.xxx) and the subnets gateway metric is “higher” and
the device is trying to reach the internet it will reroute it’s traffic not to the gateway that is defined in common
configurations but through the one that is specified in IP aliases.
You may also optionally define a broadcast address and a custom DNS server.
7.2.2.2.5 Backup WAN configuration
Backup WAN is function that allows you to back up your primary connection in case it goes down. There can be
two backup connections selected at the same time, in that case, when primary connection fails, router tries to use
backup with higher priority and if that is unavailable or fails too, then router tries the backup with lower priority.
The majority of the options consist of timing and other important parameters that help determine the health of
your primary connection. Regular health checks are constantly performed in the form of ICMP packets (Pings) on your
primary connection. When the connections state starts to change (READY->NOT READY and vice versa) a necessary
amount of failed or passed health checks has to be reached before the state changes completely. This delay is instituted
so as to mitigate “spikes” in connection availability, but it also extends the time before the backup link can be brought
up or down.
Field Name
Sample value
Explanation
58
1.
Health monitor Interval
2.
Health monitor ICMP host(s)
3.
Health monitor ICMP timeout
4.
Attempts before failover
5.
Attempts before recovery
Disable/5/10/20/30/60/120 The interval at which health checks are performed
Seconds
Disable/DNS Server(s)
Where to Ping for a health check. As there is no
/WAN GW/Custom
definitive way to determine when the connection
to internet is down for good, you’ll have to define
a host whose availability that of the internet as a
whole.
1/3/4/5/10 Seconds
How long to wait for an ICMP request to come
back. Set a higher value if your connection has
high latency or high jitter (latency spikes).
1/3/5/10/15/20
How many checks should fail for your WAN
connection to be declared DOWN for good.
1/3/5/10/15/20
How many checks should pass for your WAN
connection to be declared UP.
7.2.2.3 How do I set up a backup link?
First we must select a main link and choose one or two backup links in WAN section. Then push the “Edit” button
and configure your WAN and Backup Wan settings to your liking. Click Save and wait until the settings are applied. Now
in the Status -> Network Information -> WAN page there should be a status indication for the backup WAN. If everything
is working correctly you should see something like this:
The above picture shows the status for Backup WAN configured on a wired main link. You can now simulate a
downed link by simply unplugging your Ethernet WAN cable. When you’ve done so you should see this:
And, if you plug the cable back in you should, again, see this:
59
7.3 LAN
This page is used to configure the LAN network, where all your devices and computers that you connect to the
router will reside.
7.3.1 Configuration
7.3.1.1 General Setup
Sample value
192.168.1.1
255.255.255.0
Explanation
Address that the router uses on the LAN network
A mask used to define how large the LAN network is
IP broadcasts are used by BOOTP and DHCP clients to find and
send requests to their respective servers
Sample value
Enable/Disable
2.
Field name
Accept router
advertisements
Override MTU
3.
4.
Use gateway metric
Use WAN port as LAN
Enable/Disable
Explanation
If enabled allows accepting router advertisements (Disabled by
default)
MTU (Maximum Transmission Unit) specifies the largest
possible size of a data packet
With this field you can alter the metric of that entry
Enable/disable WAN port using as LAN port
1.
3.
Field name
IP address
IP netmask
IP broadcast
7.3.1.2 Advanced settings
1.
1500
60
7.3.2 DHCP Server
The DHCP server is the router side service that can automatically configure the TCP/IP settings of any device that
requests such a service. If you connect a device that has been configured to obtain IP address automatically the DHCP
server will lease an IP address and the device will be able to fully communicate with the router.
7.3.2.1 General Setup
1.
Field Name
DHCP
2.
Start
Sample value
Enable / Disable/
DHCP Relay
100
3.
Limit
155
4.
Lease time
12
Explanation
Manage DHCP server
The starting address of the range that the DHCP server can use to give out to
devices. E.g.: if your LAN IP is 192.168.2.1 and your subnet mask is 255.255.255.0
that means that in your network a valid IP address has to be in the range of
[192.168.2.1 – 192.168.2.254](192.168.2.0 and 192.168.2.255 are special
unavailable addresses). If the Start value is set to 100 then the DHCP server will
only be able to lease out addresses starting from 192.168.2.100
How many addresses the DHCP server gets to lease out. Continuing on the above
example: if the start address is 192.168.2.100 then the end address will be
192.168.2.254 (100 + 155 – 1 = 254).
How long can a leased IP be considered valid. An IP address after the specified
amount of time will expire and the device that leased it out will have to request
for a new one. Select Hour or Minute (minimum 2min).
61
7.3.2.2 Advanced settings
You can also define some advanced options that specify how the DHCP server will operate on your LAN network.
1.
Field Name
Sample Value
Dynamic DHCP Checked/Unchecked
2.
Force
3.
IP netmask
4.
DHCP Options
Checked/Unchecked
Explanation
Dynamically allocate client addresses, if set to 0 only clients present
in the ethers files are served
Forces DHCP serving even if another DHCP server is detected on the
same network segment.
You can override your LAN netmask here to make the DHCP server
think it’s serving a larger or a smaller network than it actually is.
Additional options to be added for this DHCP server. For example
with '26,1470' or 'option:mtu, 1470' you can assign an MTU per
DHCP. Your client must accept MTU by DHCP for this to work.
7.3.2.3 Static Leases
This page is used to configure static IP leases.
1.
2.
3.
Field Name
Hostname
MAC address
IP address
Sample Value
Printer
10:a5:d0:70:9c:72 (192.168.1.104)
192.168.1.104
Explanation
Name which will be linked with IP address.
Device MAC address
Device IP address
7.3.2.4 IP Aliases
7.3.2.4.1 General Setup
IP aliases are the way of defining or reaching a subnet that works in the same space as the regular network.
62
7.3.2.4.2 Advanced Settings
You may also optionally define a broadcast address and a custom DNS server.
7.4
Wireless
On this page you can configure your wireless settings. Depending on whether your WAN mode is set to Wi-Fi or
not, the page will display either the options for configuring an Access Point or options for configuring a connection to
some local access point.
63
Access Point:
Here you can see the Overview of the wireless configuration. It is divided into two main sections – device and
interface. One is dedicated to configuring hardware parameters other – software.
Here you can toggle the availability of the wireless radio and the physical channel frequency.
Important note: As seen in the picture you should always Save before toggling the radio on and off.
SSID – Your wireless networks identification string. This is the name of your Wi-Fi network. When other Wi-Fi
capable computers or devices scan the area for Wi-Fi networks they will see your network with this name.
Hide SSID – Will render your SSID hidden from other devices that try to scan the area.
Connect to WRP100 automatically – let Teltonika WRP100 wireless repeater connect to this router automatically.
7.4.1.1 Device
7.4.1.1.1 Advanced Settings
Here you can configure more advanced parameters:
64
1.
Field name
Mode
2.
Country Code
3.
4.
Transmit power
Fragmentation
threshold
5.
RTS/CTS Threshold
Sample value
Auto, b, g, g+n
Explanation
Different modes provide different throughput and security
options.
Any ISO/IEC 3166 alpha2
Selecting this will help the wireless radio configure its internal
country code
parameters to meet your countries wireless regulations.
20%/40%/60%/80%/100% Select Wi-Fi signal power
2346
The smallest packet size that can be fragmented and
transmitted by multiple frames. In areas were interference is a
problem, setting a lower fragment threshold might help reduce
the probability of unsuccessful packet transfers, thus increasing
speed.
2346
Request to send threshold. It can help resolve problems arising
when several access points are in the same area, contending.
7.4.1.2 Interface
7.4.1.2.1 Security
Encryption – there are many modes of encryption, a distinctive classis pointed out below.
First select an encryption method: TKIP, CCMP, TKIP&CCMP and auto. Note: Some authentication methods won’t
support TKIP (and TKIP&CCMP) encryption. After you’ve selected your encryption method, you should enter your pass
phrase, which must be at least 8 characters long.
7.4.1.2.2 MAC-Filter
Filter – you can define a rule for what to do with the MAC list you’ve defined. You can either allow only the listed
MACs or allow ALL, but forbid only the listed ones.
7.4.1.2.3 Advanced settings
Separate clients – prevents Wi-Fi clients from communicating with each other on the same subnet.
65
Increase TTL packet size – increase TTL packet size for incoming packets.
7.4.1.3 Client
RUT9xx can work as a Wi-Fi client. Client mode is nearly identical to AP, except for the fact that most for the
options are dictated by the wireless access point that the router is connecting to. Changing them can result in an
interrupted connection to an AP.
In addition to standard options you can also click the Scan button to rescan the surrounding area and attempt to
connect to a new wireless access point.
7.5
VLAN
On this page you can configure your Virtual LAN settings, either Port based or Tag based.
7.5.1 VLAN Networks
7.5.1.1 VLAN Functionality
1.
Field Name
VLAN mode
Sample Value
Disabled / Port based /
Tag based
Explanation
Lets user to choose the VLAN mode or disable VLAN functionality.
7.5.1.2 VLAN Network List
If VLAN mode – Port based:
66
1.
2.
3.
4.
Field Name
VLAN ID
LAN ports
1/2/3
Wireless
access points
LAN
Sample Value
on
Explanation
VLAN Identification number, allowed in range (1-4094)
Switches each LAN port between ON, OFF or tagged state.
Enabled / Disabled
Assign selected access point(s) to selected LAN.
None
Select to which LAN to assign selected LAN ports and wireless access
points.
If VLAN mode – Tag based:
1.
3.
4.
Field Name
VLAN ID
Wireless
access points
LAN
Sample Value
Enabled / Disabled
Explanation
VLAN Identification number, allowed in range (1-4094)
Assign selected access point(s) to selected LAN.
None
Select to which LAN to wireless access point(s).
67
7.5.2 LAN Networks
In this page you can create extra LAN networks, and assign them with LAN Ports and wireless access points. You
can get extra information on how to configure any of your LAN’s settings in section – 7.3 LAN
1.
2.
Field Name
LAN name
Interface
name
Sample Value
Lan
eth0 tap0
7.6
Explanation
Specifies new LAN name
Specifies LAN interface name
Firewall
In this section we will look over the various firewall features that come with RUT9.
7.6.1 General Settings
The routers firewall is a standard Linux iptables package, which uses routing chains and policies to facilitate
control over inbound and outbound traffic.
1.
Field Name
Drop Invalid
packets
Sample value
Explanation
Checked/Unchecked A “Drop” action is performed on a packet that is determined to be invalid
68
2.
Input
Reject/Drop/Accept
DEFAULT* action that is to be performed for packets that pass through the
Input chain.
3. Output
Reject/Drop/Accept DEFAULT* action that is to be performed for packets that pass through the
Output chain.
4. Forward
Reject/Drop/Accept DEFAULT* action that is to be performed for packets that pass through the
Forward chain.
*DEFAULT: When a packet goes through a firewall chain it is matched against all the rules for that specific chain. If
no rule matches said packet, an according Action (either Drop or Reject or Accept) is performed.
Accept – Packet gets to continue down the next chain.
Drop – Packet is stopped and deleted.
Reject – Packet is stopped, deleted and, differently from Drop, an ICMP packet containing a message of rejection
is sent to the source of the dropped packet.
7.6.2 DMZ
By enabling DMZ for a specific internal host (for e.g.: your computer), you will expose that host and its services to
the routers WAN network (i.e. - internet).
7.6.3 Port Forwarding
Here you can define your own port forwarding rules.
69
You can use port forwarding to set up servers and services on local LAN machines. The above picture shows how
you can set up a rule that would allow a website that is being hosted on 192.168.1.109, to be reached from the outside
by entering http://routersExternalIp:12345/.
1.
Field Name
Name
2.
3.
Protocol
External Port
4.
Internal IP address
5.
Internal port
Sample value
Explanation
Enable_SSH_WAN_PASSTHROUGH Name of the rule. Used purely to make it easier to
manage rules.
TCP/UDP/TCP+UDP/Other
Type of protocol of incoming packet.
1-65535
From this port on the WAN network the traffic will be
forwarded.
IP address of some computer on
The IP address of the internal machine that hosts
your LAN
some service that we want to access from the outside.
1-65535
To that port on the internal machine the rule will
redirect the traffic.
When you click edit you can fine tune a rule to near perfection, if you should desire that.
70
1.
Field Name
Name
2.
Protocol
3.
4.
5.
7.
Source zone
Source MAC address
Source IP address
Source port
8.
External IP address
9.
External port
10. Internal zone
11. Internal IP address
12. Internal port
13. Enable NAT loopback
14. Extra arguments
Sample value
Explanation
ENABLE_SSH_WAN_PASSTHROUGH Name of the rule. Used purely to make it easier to
manage rules.
TCP/UDP/TCP+
You may specify multiple by selecting (custom) and
UDP/ICMP/Custom
then entering protocols separated by space
LAN/VPN/WAN
Match incoming traffic from this zone only
any
Match incoming traffic from these MACs only
any
Match incoming traffic from this IP or range only
any
Match incoming traffic originating from the given
source port or port range on the client host only
any
Match incoming traffic directed at the given IP
address only
22
Match incoming traffic directed at the given
destination port or port range on this host only
LAN/VPN/WAN
Redirect matched incoming traffic to the specified
internal zone
127.0.0.1
Redirect matched incoming traffic to the specified
internal host
any
Redirect matched incoming traffic to the given port
on the internal host
Enable/Disable
NAT loopback enables your local network (i.e.
behind your router/modem) to connect to a
forward-facing IP address (such as 208.112.93.73) of
a machine that it also on your local network
Passes additional arguments to iptables. Use with
care!
71
7.6.4 Traffic Rules
The traffic rule page contains a more generalized rule definition. With it you can block or open ports, alter how
traffic is forwarded between LAN and WAN and many more things.
1.
2.
3.
4.
5.
6.
Field Name
Name
Protocol
Source
Destination
Action
Enable
7.
Sort
Explanation
Name of the rule. Used for easier rules management purpose only
Protocol type of incoming or outgoing packet
Match incoming traffic from this IP or range only
Redirect matched traffic to the given IP address and destination port
Action to be taken for the packet if it matches the rule
Self-explanatory. Uncheck to make the rule inactive. The rule will not be deleted, but it also
will not be loaded into the firewall.
When a packet arrives, it gets checked for a matching rule. If there are several rules that
match the rule, the first one is applied i.e. the order of the rule list impacts how your firewall
operates, therefore you are given the ability to sort your list as you wish.
You can configure firewall rule by clicking edit button.
72
Field Name
Name
Restrict to address
family
Protocol
Sample value
“Allow-DHCP-Relay”
IPv4 and IPV6
Explanation
Used to make rule management easier
Match traffic from selected address family only
TCP/UDP/Any/ICMP/Custom
any
any zone/LAN/VPN/WAN
any
7.
8.
Match ICMP type
Source zone
Source MAC
address
Source address
Source port
Protocol of the packet that is being matched against traffic
rules.
Match traffic with selected ICMP type only
Match incoming traffic from this zone only
Match incoming traffic from these MACs only
9.
Destination zone
10. Destination address
Device/Any
zone/LAN/VPN/WAN
any
11. Destination port
67
12. Action
Drop/Accept/Reject + chain
+ additional rules
1.
2.
3.
4.
5.
6.
any
any
Match incoming traffic from this IP or range only
Match incoming traffic originating from the given source
port or port range on the client host only
Match forwarded traffic to the given destination zone only
Match forwarded traffic to the given destination IP address
or IP range only
Match forwarded traffic to the given destination port or
port range only
Action to be taken on the packet if it matches the rule. You
can also define additional options like limiting packet
volume, and defining to which chain the rule belongs
73
7.6.4.1 Open Ports On the Router
1.
2.
Field Name
Name
Protocol
3.
External port
Sample value
Explanation
Open_Port_rule
Used to make rule management easier
TCP/UDP/Any/ICMP/Custom Protocol of the packet that is being matched against
traffic rules.
1-65535
Match incoming traffic directed at the given destination
port or port range on this host.
7.6.4.2 New Forward Rule
1.
2.
3.
Field Name
Name
Source
Protocol
Sample value
Forward rule new
LAN/VPN/WAN
TCP/UDP/Any/ICMP/Custom
Explanation
Used to make rule management easier
Match incoming traffic from selected address family only
Protocol of the packet that is being matched against
traffic rules.
7.6.4.3 Source NAT
Source NAT is a specific form of masquerading which allows fine grained control over the source IP used for
outgoing traffic, for example to map multiple WAN addresses to internal subnets.
1.
Field Name
Name
Sample value
SNAT
Explanation
Used to make rule management easier
74
2.
Protocol
TCP/UDP/Any/ICMP/Custom
3.
4.
5.
Source
Destination
SNAT
LAN/VPN/WAN
LAN/VPN/WAN
Rewrite to source IP 10.101.1.10
6.
Enable
Enable/Disable
Protocol of the packet that is being matched against traffic
rules.
Match incoming traffic from selected address family only
Forward incoming traffic to selected address family only
SNAT (Source Network Address Translation) rewrite packet\'s
source IP address and port
Make a rule active/inactive
You can configure firewall source NAT rule, by clicking edit button.
1.
2.
Field Name
Name
Protocol
3.
4.
5.
6.
Source zone
Source MAC address
Source address
Source port
7.
Destination zone
8.
Destination IP address
9.
Destination port
Sample value
Explanation
SNAT
Used to make rule management easier
TCP/UDP/Any/ICMP/Custom Protocol of the packet that is being matched against
traffic rules.
LAN/VPN/WAN
Match incoming traffic from this zone only
any
Match incoming traffic from these MACs only
any
Match incoming traffic from this IP or range only
any
Match incoming traffic originating from the given source
port or port range on the client host only
LAN/VPN/WAN
Match forwarded traffic to the given destination zone
only
Select from the list
Match forwarded traffic to the given destination IP
address or IP range only
any
Match forwarded traffic to the given destination port or
port range only
75
10. SNAT IP address
11. SNAT port
“10.101.1.10”
“22”
12. Extra arguments
Rewrite matched traffic to the given IP address
Rewrite matched traffic to the given source port. May be
left empty to only rewrite the IP address'
Passes additional arguments to iptables. Use with care!
7.6.5 Custom Rules
Here you have the ultimate freedom in defining your rules – you can enter them straight into the iptables
program. Just type them out into the text field ant it will get executed as a Linux shell script. If you are unsure of how to
use iptables, check out the internet for manuals, examples and explanations.
7.6.6 DDOS Prevention
7.6.6.1 SYN Flood Protection
SYN Flood Protection allows you to protect from attack that exploits part of the normal TCP three-way handshake
to consume resources on the targeted server and render it unresponsive. Essentially, with SYN flood DDoS, the offender
sends TCP connection requests faster than the targeted machine can process them, causing network saturation.
76
1.
2.
Field Name
Enable SYN flood protection
SYN flood rate
Sample value
Enable/Disable
“25”
3.
SYN flood burst
“50”
4.
TCP SYN cookies
Enable/Disable
Explanation
Makes router more resistant to SYN flood attacks.
Set rate limit (packets/second) for SYN packets above
which the traffic is considered a flood.
Set burst limit for SYN packets above which the traffic is
considered a flood if it exceeds the allowed rate.
Enable the use of SYN cookies (particular choices of
initial TCP sequence numbers by TCP servers).
7.6.6.2 Remote ICMP requests
Attackers are using ICMP echo request packets directed to IP broadcast addresses from remote locations to
generate denial-of-service attacks.
1.
2.
3.
4.
5.
Field Name
Enable ICMP requests
Enable ICMP limit
Limit period
Limit
Limit burst
Sample value
Enable/Disable
Enable/Disable
Second/Minute/Hour/Day
“10”
“5”
Explanation
Blocks remote ICMP echo-request type
Enable ICMP echo-request limit in selected period
Select in what period limit ICMP echo-request
Maximum ICMP echo-request during the period
Indicating the maximum burst before the above limit
kicks in.
7.6.6.3 SSH Attack Prevention
Prevent SSH (Allows a user to run commands on a machine's command prompt without them being physically
present near the machine.) attacks by limiting connections in defined period.
Field Name
Sample value
Explanation
77
1.
2.
3.
4.
Enable SSH limit
Limit period
Limit
Limit burst
Enable/Disable
Second/Minute/Hour/Day
“10”
“5”
Enable SSH connections limit in selected period
Select in what period limit SSH connections
Maximum SSH connections during the period
Indicating the maximum burst before the above limit
kicks in.
7.6.6.4 HTTP Attack Prevention
HTTP attack sends a complete, legitimate HTTP header, which includes a 'Content-Length' field to specify the size
of the message body to follow. However, the attacker then proceeds to send the actual message body at an extremely
slow rate (e.g. 1 byte/110 seconds). Due to the entire message being correct and complete, the target server will
attempt to obey the 'Content-Length' field in the header, and wait for the entire body of the message to be transmitted,
hence slowing it down.
1.
2.
3.
4.
Field Name
Enable HTTP limit
Limit period
Limit
Limit burst
Sample value
Enable/Disable
Second/Minute/Hour/Day
“10”
“10”
Explanation
Limits HTTP connections per period
Select in what period limit HTTP connections
Maximum HTTP connections during the period
Indicating the maximum burst before the above limit
kicks in.
7.6.6.5 HTTPS Attack Prevention
1.
2.
3.
4.
Field Name
Enable HTTPS limit
Limit period
Limit
Limit burst
Sample value
Enable/Disable
Second/Minute/Hour/Day
“10”
“10”
Explanation
Limits HTTPS connections per period
Select in what period limit HTTPS connections
Maximum HTTPS connections during the period
Indicating the maximum burst
78
7.6.7 Port Scan Prevention
7.6.7.1 Port Scan
1.
2.
Field Name
Enable
Interval
Sample value
Enable/Disable
30
3.
Scan count
10
Explanation
Enable port scan prevention
Time interval in seconds counting how much port scan
(10 – 60 sec.)
How much port scan before blocked
7.6.7.2 Defending type
1.
2.
3.
4.
5.
7.7
Field Name
SYN-FIN attack
SYN-RST attack
X-Mas attack
FIN scan
NULLflags attack
Explanation
Protect from SYN-FIN attack
Protect from SYN-RST attack
Protect from X-Mas attack
Protect from FIN scan
Protect from NULLflags attack
Routing
7.7.1 Static Routes
Static routes specify over which interface and gateway a certain host or network can be reached.
79
1.
2.
3.
4.
Field name
Routing table
Interface
Destination address
Netmask
Value
MAIN/WAN/WAN2/WAN3
MAIN/WAN/WAN2/WAN3
IP address
IP mask
5.
Gateway
IP address
6.
Metric
integer
Explanation
Defines the table to use for the route
The zone where the target network resides
The address of the destination network
Mask that is applied to the Target to determine to what actual
IP addresses the routing rule applies
To where the router should send all the traffic that applies to
the rule
Used as a sorting measure. If a packet about to be routed fits
two rules, the one with the higher metric is applied.
Additional note on Target & Netmask: You can define a rule that applies to a single IP like this: Target - some IP;
Netmask - 255.255.255.255. Furthermore you can define a rule that applies to a segment of IPs like this: Target – some
IP that STARTS the segment; Netmask – Netmask that defines how large the segment is. E.g.:
192.168.55.161
192.168.55.0
192.168.55.240
192.168.55.161
192.168.0.0
255.255.255.255
255.255.255.0
255.255.255.240
255.255.255.0
255.255.0.0
Only applies to 192.168.55.161
Applies to IPs in range 192.168.55.0-192.168.55.255
Applies 192.168.55.240 - 192.168.55.255
192.168.55.0 - 192.168.55.255
192.168.0.0 - 192.168.255.255
7.7.2 Dynamic Routes
7.7.2.1 General
Dynamic routes provide dynamic routing which enables router to select paths according to real-time logical
network layout changes.
80
1.
2.
Field name
Enable
Router ID
Value
Enable/Disable
192.168.1.1
Explanation
Enable dynamic routes
Router’s ID
7.7.2.2 OSPF Protocol
7.7.2.2.1 OSPF General Instance
1.
2.
3.
4.
5.
Field name
Enable
Stub
RFC1583
compatibility
Import
Export
Value
Enable/Disable
Enable/Disable
Enable/Disable
Explanation
Enables OSPF protocol
Enable/Disable stub
Enables OSPF compatibility with RFC1583 specification
All/None/custom
All/None/custom
Set if the protocol must import routes
Set if the protocol must export routes
7.7.2.2.2 OSPF Area
The OSPF network can be divided into sub-domains called areas.
81
1.
2.
Field name
Area name
Enable
Value
OSPF_area
Yes/No
Explanation
OSPF area’s name
Enable/disable OSPF area
To see at specific configuration settings press “edit” button located in newly created OSPF area. A new page with
detailed configuration appears, as shown in the picture below.
1.
2.
3.
4.
Field name
Enabled
Stub
Interface
New IP
Value
Enable/Disable
Enable/Disable
br-lan
Explanation
Enable specific OSPF area
Enable/disable stub
A interface that new instance will have
Name of the new OSPF network configuration. Used for easer
configurations management purpose only
82
7.7.2.3 General Protocol
1.
2.
3.
Field name
Enable
Learn
Persist
Value
Enable/Disable
Enable/Disable
Enable/Disable
4.
5.
6.
7.
8.
Scan time
Import
Export
Enable
Scan time
20
All
All
Enable/Disable
10
Explanation
Enable/Disable settings
Enables routes learning
If checked it allows to store routes. After a restart, routes will be still
configured
Time between scans
Set if the protocol must import routes
Set if the protocol must export routes
If checked the protocol will not be configured
Time between scans
7.7.2.3.1 Static Routes
1.
2.
Field name
Prefix
Type
Explanation
Protocol prefix of incoming or outgoing packet
Protocol type of incoming or outgoing packet
83
7.8
Load Balancing
Load balancing lets users divide traffic between different interfaces.
8 Remote monitoring and administration
RUT9XX supports multiple monitoring and administration possibilities. One can get routers information through
SMS or using RMS (Remote Management System). Furthermore, some system related parameters can be obtained using
MODBUSD or MQTT publisher services. How to use them are described in the 9.19 and 9.20 chapters respectively. The
main focus is on parameters, which change from time to time, like signal strength, operators name (it is quite common
to change of operator name in countries where inner roaming is used) or module temperature. Although it is also
possible to read more static values, like MAC address, router’s serial number and many others. The access to the
mentioned parameters is implemented in both MODBUSD and MQTT publisher applications. Apart from getting of
some parameters, MODBUSD also supports setting of some system related parameter, for example, change value of
digital output. Although it sounds frustrating, this functionality is sometimes useful and necessary.
Some applications, like MQTT publisher or RMS allows monitoring or administrating several routers from one
place. It is very useful functionality, when you have few routers and would like to change some parameter using single
application. RMS share some similarities with SSH (Secure Shell) and indeed, one of RMS feature is to allows SSH access
to remote router. There is no separate chapter about RMS in this manual, because the interface of RMS is very intuitive
and user friendly. You can access RMS by using your browser with supplied username and a password at
http://rms.teltonika.lt
By sending SMS to the router the user can execute some command, like reboot, switch wifi on or off and many
others. With each SMS the user need to specify router’s administrator password. This is done for authentication
purposes. The list of commands that may be executed through the SMS is limited. Full list of commands can be found on
Services-SMS Utilities of routers WEB page. More about router’s management using SMS can found in chapter 9.8.
Another interesting router monitoring solution is SNMP (Simple Network Management Protocol). By not going
into deep details about this protocol, it is another manner to monitor router parameters. It allows the user to check
current operator, modem model and other router parameters. Compared to other applications and services, only SNMP
have ability to inform the user about the occurrence of specific event (called trap) in the system. The main drawback of
this protocol is, that it does not allow to change anything. You can read more about SNMP in chapter 8.9.
84
Apart from services mentioned earlier, there is one service, which is used only for communication between router
and Android type device (phones, etc’). It is called json-rpc and allows to set or get various parameters of the system.
JSON-RPC can execute the same commands, like user through SSH. To sum up, this approach opens wide possibilities in
communication between router and Android. However, there is no separate topic about JSON-RPC in this manual,
because this type of communication is generally not for end-user use.
Each approach has its advantages and disadvantages. In some situations, maybe MQTT publisher works better
than MODBUSD, while in others, MODBUSD will be the better choice. The most versatile manner of system monitoring
and administration is through SSH. The SSH provides complete control of the router. The user can execute commands,
write shell scripts and do many other things. In such case, the user only needs application to connect router through
SSH. The most popular application used in Windows type operating systems is called Putty. If you try to connect to
router from Unix like operating system, you only need to execute ssh command with some arguments, like hostname
and username (in this case – root).
Sometimes the use of SSH is not necessary, so other more conservative services/applications are used. The
complete list of applications and services, which can be used for router administration and monitoring are given below.
It can be seen, that all applications, except MQTT publisher and SNMP supports setting/getting of some system related
parameter.
85
1.
2.
3.
4.
5.
6.
7.
Application
MQTT publisher
MODBUS daemon
SSH
RMS
SMS
SNMP
JSON-RPC
Can obtain parameters







Can set parameters





By summarizing, RUT9XX provides several solutions for router management. Each user can choose what solution
to use. If required functionality is not found in particular service, the user can combine several applications, for
example, use MQTT publisher along with SNMP. Finally, if user has special needs, he can write shell script and execute it
via SSH or use json-rpc.
9 Services
9.1 VRRP
9.1.1 VRRP LAN Configuration Settings
1.
2.
Field name
Enable
IP address
Sample
Enable/Disable
192.168.1.253
3.
Virtual ID
4.
Priority
100
Explanation
Enable VRRP (Virtual Router Redundancy Protocol) for LAN
Virtual IP address for LAN's VRRP (Virtual Router Redundancy
Protocol) cluster
Routers with same IDs will be grouped in the same VRRP (Virtual
Router Redundancy Protocol) cluster, range [1-255]
Router with highest priority value on the same VRRP (Virtual Router
Redundancy Protocol) cluster will act as a master, range [1-255]
86
9.1.2 Check Internet connection
1.
2.
3.
4.
5.
Field name
Enable
Ping IP address
Ping interval
Ping timeout (sec)
Ping packet size
Sample
Enable/Disable
8.8.4.4
10
50
6.
Ping retry count
100
9.2
Explanation
Enable WAN's connection monitoring
A host to send ICMP (Internet Control Message Protocol) packets to
Time interval in seconds between two Pings
Response timeout value, interval [1 - 9999]
ICMP (Internet Control Message Protocol) packet's size, interval [0 1000]
Failed Ping attempt’s count before determining that connection is
lost, interval [1 – 9999]
TR-069
TR-069 is a standard developed for automatic configuration and management of remote devices by Auto
Configuration Servers (ACS).
9.2.1 TR-069 Parameters Configuration
1.
2.
3.
4.
5.
Field name
Enable
Enable Periodic Transmission
User name
Password
URL
Sample
Enable/Disable
Enable / Disable
admin
*******
http://192.168.1.110:8080
87
Explanation
Enable TR-069 client
Enable periodic transmissions of data to server
User name for authentication on TR-069 server
Password for authentication on TR-069 server
TR-069 server URL address
9.3
Web filter
9.3.1 Site blocking
1.
2.
Field name
Enable
Mode
Sample
Enable/Disable
Whitelist/Blacklist
3.
4.
Enable
Host name
Enable/Disable
www.yahoo.com
Explanation
Enable host name based websites blocking
Whitelist - allow every site on the list and block everything else. Blacklist block every site on the list and allow everything else.
Check to enable site blocking
Block/allow site with this hostname
9.3.2 Proxy Based Content Blocker
88
1.
Field name
Enable
Sample
Enable/Disable
2.
Mode
Whitelist/Blacklist
3.
URL
content
example.com
9.4
Explanation
Enable proxy server based URL content blocking. Works with HTTP
protocol only
Whitelist - allow every part of URL on the list and block everything
else. Blacklist - block every part of URL on the list and allow everything
else
Block/allow any URL containing this string. Example.com, example.*,
*.example.com
NTP
NTP configuration lets you setup and synchronize routers time.
1.
2.
3.
Field name
Current System time
Time zone
Enable NTP
Description
Local time of router.
Time zone of your country.
Enable system’s time synchronization with time server using NTP (Network Time
89
Protocol)
4. Update interval
How often router updates systems time
5. Save time to flash
Save last synchronized time to flash memory
6. Count of time
Total amount of times that router will do the synchronization. Note: If left blank - the
synchronizations
count will be infinite
7. Offset frequency
Adjust the minor drift of the clock so that it will be more accurate
Note, that under Time Servers at least one server has to be present, otherwise NTP will not serve its purposes.
90

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