Packet Tracer for young advanced admins - Jerzy Kluczewski

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8 Integrated Industrial Routers

8.1 DESCRIPTION OF INTEGRATED ROUTERS Industrial integrated routers, in addition to supporting Wi-Fi, wired networks, also have support for fourth-generation integrated wireless WANs (4G LTE) and also support Machine-to-Machine (M2M) applications.

Part 1. A brief description of the Cisco IOx environment.

The Cisco IOx application environment is a combination of Cisco IOS and Linux OS to provide higher network security.

Figure 8.1 Cisco IOx application environment - source (Cisco.live, 2019) 5

Fog computing is a decentralized computing framework placed between the cloud and end devices. It allows users to place resources, including applications and the data they generate, in physical locations to increase performance.

Integrated Industrial Routers

Figure 8.2 Fog computing IOx - source (Cisco.live, 2019) 6

In the 819 series routers, individual software components run in two CPU cores:

? in core 0 (Core 0) runs IOS,

? Core 1 runs the so-called Host OS, the so-called hypervisor, and applications.

Figure 8.3 Placement of systems and applications in the 819 IOx series router - source (Cisco.live, 2019) 7

6 Presentation Cisco.live. Las Vegas.2019.

7 Presentation Cisco.live. Las Vegas.2019.

The industrial integrated router models implemented in Packet Tracer are:

? Router 819HG-4G-IOX

? Router 819HGW

Part 4. A brief description of the 819HG-4G-IOX router.

The 819HG-4G-IOX router supports Machine-to-Machine (M2M) applications and cellular network services.

Figure 8.4 View of 819HG-4G-IOX

The 819IOX router comes standard with two antennas and non-replaceable MODULES:

? one GigabitEthernet0 interface,

? four ( FastEthernet0 - FastEthernet3 ) interfaces,

? one Serial0 serial communication interface,

? one Ethernet1 interface,

? one VirtualPortGroup0 ,

? one Cellular0 interface .

Part 5. Brief description of the 819HGW router.

The Cisco 819HGW (Integrated Services Router), is a variation of the 819 router model that supports Machine-to-Machine (M2M) applications and cellular network services.

Integrated Industrial Routers

Figure 8.5 View of 819HGW

The 819HGW router comes standard with five antennas and non-replaceable:

? one GigabitEthernet0 interface,

? four ( FastEthernet0 - FastEthernet3 ) interfaces,

? one Serial0 serial communication interface,

? one Ethernet1 interface,

? one Wlan-Gigabitethernet0 wireless interface,

? one Cellular0 interface,

? one internal module acting as wlan-ap0 access point.

Part 6. Main commands of the IOX service configuration mode. To enter IOX mode, follow the commands:

enable

conf t

iox

Table 8.1 IOx commands

Source: (Cisco800, 2022), (IOx-Application-Hosting, 2022) 8

Part 7. Initial configuration setup commands.

Note: addresses are examples.

NAT settings on the inside.

enable

conf t

interface Ethernet1

ip address 192.168.3.1 255.255.255.0

ip nat inside

no shutdown

exit

IOx host addressing settings

enable

conf t

iox

host ip address 192.168.3.2 255.255.255.0 host ip default-gateway 192.168.3.1

exit

NAT settings on the external side

enable

conf t

interface GigabitEthernet0

ip address 1.100.30.113 255.255.255.0

ip nat outside

no shutdown

exit

Settings of address ranges, subject to translation by NAT

enable

conf t

ip access-list standard NAT_ACL

permit 192.168.0.0 0.0.255.255

exit

Association of an external interface with a NAT_ACL list

enable

conf t

ip nat inside source list NAT_ACL interface GigabitEthernet0 overload

exit

Association of external interface with IOx TCP port 8443

enable

conf t

ip nat inside source static tcp 192.168.3.2 8443 interface GigabitEthernet0 8443

exit

Part 8. Local management interface components .

The Local Management UI consists of the following components, shown in the figure.

Fig. 8.6 Local Management UI components

Local Management UI is available via 8332 port.

8.2 Basic configuration for 819HG-4G-IOX (Exercise 21) Part 1.Network topology.

Integrated Industrial Routers

Figure 8.7 Network topology

Part 2. Required equipment.

? PC-PT - 1 pcs

? 819HG-4G-IOX router - 1 pcs

Table 8.2 Network addressing

Part 3. Plan of the exercise .

Configure the RTR router according to the following steps:

Step 1 . Create a password-protected account

Commands:

username cisco privilege 15

password 0 cisco

Step 2 . Configure DHCP.

Commands :

enable

conf t

hostname RTR

ip dhcp excluded-address 192.168.1.0 192.168.1.1

ip dhcp pool iox-apps

network 192.168.1.0 255.255.255.0

default-router 192.168.1.1

Step 3 . Configure NAT and host IOx addressing.

Commands :

interface GigabitEthernet0

ip address 172.1.1.1 255.255.255.0

ip nat outside

interface Ethernet1

ip address 192.168.3.1 255.255.255.0

ip nat inside

interface VirtualPortGroup0

ip address 192.168.1.1 255.255.255.0

ip nat inside

iox

host ip address 192.168.3.2 255.255.255.0 host ip default-gateway 192.168.3.1

ip nat inside source list NAT_ACL inteface Gi0 overload ip nat inside source static tcp 192.168.3.2 8443

172.1.1.1 8443

ip access-list standard NAT_ACL

permit 192.168.0.0 0.0.255.255

Step 4 . Check NAT addressing.

Commands:

show ip nat translations

Figure 8.8 NAT addressing in RTR router

Step 5 . Check access to the site https://172.1.1.1:8443 and log in. In PC0, open the page https://172.1.1.1:8443 (log into Cisco Application Management. User: cisco Password: cisco ).

Figure 8.9 https://172.1.1.1:8443

Integrated Industrial Routers

Figure 8.10 https://172.1.1.1:8443/admin

8.3 Running a virtual machine in 819HG-4G-IOX (Exercise

22)

Part 1 . Network topology.

Figure 8.11 Network topology

Part 2 . Required equipment:

? PC-PT - 1 pcs

? 819HG-4G-IOX - 1 pcs

Part 3 . Assumptions:

The RTR router has configured addressing, NAT, and:

? Cisco Application Management listening on port 8443,

? access to Cisco Application Management is configured (login: cisco, password: cisco).

? The virtual machine is located on PC0 in the vm1 directory. Part 3. Plan of the exercise - method 1 - using GUI.

Configure RTR router according to the given steps:

Step 1 . Log into Cisco Application Management

From PC0 log into Cisco Application Management (address https://172.1.1.1:8443 ).

Figure 8.12 Cisco Application Management login page

Step 2 . Add new virtual machine.

Using [ Add/Deploy ] button add virtual machine.

Figure 8.13 Adding a virtual machine

In Application Id field type 1.

Select the file ( Project Name ) vm1 .

Figure 8.14 Selecting a virtual machine

Step 3 . Start and stop the virtual machine.

Integrated Industrial Routers

Figure 8.15 Running a virtual machine

Figure 8.16 Stopping the virtual machine

Figure 8.17 Status of the virtual machine

Part 4 . Course of the exercise - method 2 - using CLI.

Step 1 . On your computer, go to the vm1 directory and check its contents. Use the commands : cd, dir.

Figure 8.18 Checking the contents of the C:\vlm directory Step 2. On the router RTR and transfer the vml.ova file from PC0 to the flash memory on the router.

Use the commands: enable, copy

Integrated Industrial Routers

Figure 8.19 Uploading the vml.ova file to flash memory on the router Step 3 . On the router, check the contents of the flash memory. Use the command : dir

Figure 8.20 Checking the contents of flash memory:/

Step 4. Install a virtual machine on the router.

Use the commands :

enable, virtual-service install name vm1 package flash:/vm1.ova

Figure 8.21 Installing the virtual machine

Step 5. On the router, go to global configuration mode and start vm1. Use the commands :

conf t, virtual-service vm1, activate

Integrated Industrial Routers

Figure 8.22 Running the virtual machine

Step 6. On the router, stop vm1

Use the commands :

conf t, virtual-service vm1, no activate

Figure 8.23 Stopping the virtual machine

8.4 List of auxiliary files

? exercise21-isr819hg-4g-iox-basic-configuration.pkt

? exercise22-isr819hg-4g-iox-running-virtual-machine.pkt