Manual 5G

From OsbridgeWiki

Jump to: navigation, search

OSBRiDGE 5G Configuration Guide

Firmware 3.29R


Contents

Initial software setup and configuration.

OSBRiDGE 5G devices are configurable via WWW interface. Each device uses following default settings:

IP Address: 192.168.1.254
Subnet Mask: 255.255.255.0
Login: admin
Password: public

The initial login screen looks as follows:

Please enter username and password, then press submit to log into the device.

Please note that after changing device parameters and pressing submit button, new settings will only be saved when you press "Apply Changes" button at the right bottom of the configuration page. You also need to reboot the device for the device to start with new settings.

System Information

System information tab shows information about system hardware and operational parameters:

Device Information:
Device Type – Device type you are logged into.
MAC Address – Device MAC address.
Firmware Version – Current firmware version.
Hardware Revision – Device Hardware version.
Regulatory Domain – Currently configured regulatory domain.
Uptime – How long the device has been up and running since last reboot.
System Load – Percentage of current CPU utilization.
IP Mode – Network mode the device has been configured to operate. Available modes are Bridge and Router.
IP Address – Device IP address.
Subnet Mask – Currently defined subnet mask.
Default Gateway – Currently defined default gateway.
Watchdog - Built in watchdog device status.
VTUN Client - Built in VTUN client status.

Wireless Interface 1 / Wireless Interface 2

Status – Enabled or Disabled, depending on the current configuration.
MAC Address – Current MAC address of the wireless interface.
WLAN Mode – Access Point (802.11a compatible) or Polling Base Station (OSBRiDGE proprietary WLAN MAC protocol, optimized for outdoor networks).
ESSID - An ESSID is the name of a wireless network. All wireless devices on a common wireless network must employ the same ESSID in order to communicate with each other.
Frequency – Current frequency the interface is configured to operate on.
Channel Width – Channel width the device is configured to operate. Available values are 20 MHz (standard width), 10 MHz (half width), 5 MHz (quarter width) and 40 MHz (802.11a Turbo mode).
Data Rate – Configured Data Rate for specific WLAN interface.
Supported Data Rates – Wireless Data rates the device supports.

Available Data Rates are:
6, 9, 12, 18, 24, 36, 48 and 54 Mbps for regular 802.11a mode (20 MHz channel width),
12, 18, 24, 36, 48, 72, 96 and 108 Mbps in 802.11a Turbo mode (40 MHz channel width),
3, 4.5, 6, 9, 12, 18, 24 and 27 Mbps for 802.11a mode with 10 MHz channel width,
1.5, 2.25, 3, 4.5, 6, 9, 12 and 13.5 Mbps for 802.11a mode with 5 MHz channel width.

TX Packets – Number of data packets that have been transmited by the Access Point.
TX Errors – Number of errors in packets that have been transmited by the Access Point.
TX Bytes – Number of bytes transmited by the Access Point.
RX Packets – Number of data packets that have been received by the Access Point.
RX Errors – Number of errors in packets that have been transmited to the Access Point.
RX Bytes – Number of bytes received by the Access Point.
Fragmentation Threshold - The size at which packets are fragmented on the WLAN interface.
Cell Size – Configured distance between OSBRiDGE 5G base station and the most distant client device connecting to it.

General Settings

Regulatory Domain – Please select regulatory domain that is most appropriate to your location.

Supported Regulatory Domains and allowed frequency ranges are defined as follows:
Europe – 5500 – 5700 MHz with DFS, 20 MHz, 10 MHz and 5 MHz selectable channel sizes
OFCOM UK – 5735 MHz, 5755 MHz, 5775 MHz, 5835 MHz with DFS, 20 MHz, 10 MHz and 5 MHz selectable channel sizes
USA – 5180 – 5320 MHz, 5745 - 5825MHz, 20 MHz, 10 MHz and 5 MHz selectable channel sizes
Far East & Africa – 4920 – 6100 MHz (236 channels), 40 MHz, 20 MHz, 10 MHz and 5 MHz selectable channel sizes.

Device Name - This is the system name for easy identification of the OSBRiDGE 5G unit.
WLAN 1 ESSID - An ESSID is the unique name shared among all peers in your wireless network. The name must be identical for all devices attempting to connect to the same network. It shall be up to 32 characters length.
WLAN 2 ESSID - An ESSID is the unique name shared among all peers in your wireless network. The name must be identical for all devices attempting to connect to the same network. It shall be up to 32 characters length.
IP Operational Mode
Bridge - Bridge works at OSI model Layer 2. This means it does not know anything about protocols, but just forwards data depending on the destination address in the data packet. This address is not the IP address, but the MAC (Media Access Control) address that is unique to each network adapter card. With a Bridge, all your computers are in the same network subnet, so you don't have to worry about not being able to communicate between computers or share an Internet connection. The only data that is allowed to cross the bridge is data that is being sent to a valid address on the other side of the bridge. Bridges don't require programming. They learn the addresses of the computers connected to them by listening to the data flowing through them. Bridges are very useful for joining networks made of different media types together into larger networks, and keeping network segments free of data that doesn't belong in a particular segment.
Router - Router is an OSI model Layer 3 device, and forwards data depending on the network address, not the hardware (MAC) address. For TCP/IP networks this means the IP address of the network interface. Routers isolate each LAN into a separate subnet. Routers provide bandwidth control by keeping data out of subnets where it doesn't belong, however routes need to be set up before they can get going.

WLAN Operational Mode - Wireless LAN Operational mode for the device. Available modes are:
Access Point - This mode allows connection of any 802.11a based Client Devices.
AP Client - Client for another OSBRiDGE 5G running device operating in Access Point mode. In this mode full MAC address passthrough is achieved between bridged ethernet segments.
Polling Base Station – This mode utilizes OSBRiDGE proprietary polling wireless mac protocol, that has been specifically optimized for high performance outdoor networks.
PtP Bridge Master - Master interface when configured to operate as point to point wireless bridge.
PtP Bridge Slave - Client interface when configured to operate as point to point wireless bridge.

Carrier Sense - This option allows to disable standard 802.11 CSMA/CA backoff mechanism. Disabling 802.11 CSMA greatly improves performance when operating in area with noise generated by other (especialy non 802.11 compliant) devices.
Web Login Timeout – Enter the value the management Web session should be kept alive without any action from the user.
Watchdog – If enabled then OSBRiDGE 5G device will send 3 ICMP Echo Requests to the configured IP address, each in 3 minutes interval. If there is no single ICMP Echo Reply to any of these requests, then the device will reboot itself. The device also has independent hardware watchdog built in, that checks for critical operational parameters and reboots the device, should the system hang or become unstable. That watchdog works all the time, regardless of the ping watchdog configuration.
ETH Speed – Ethernet connection speed, available values are Auto, 100MBps Half/Full Duplex and 10Mbps Half/Full Duplex.
Stats Update Interval – Time interval between subsequential graph updates.
Traffic Shaping – Enable or Disable device built in traffic shaper.
Firewall – Enable or Disable device built in firewall.
Wireless Traffic Forwarding – If Enabled, then all traffic coming from wireless interfaces will be forwarded to the specified MAC address on the wired side of the Access Point (ie. MAC address of the default router where that traffic can be later throttled, filtered etc.).
Reset to Default Password – Password that is used to reset device to factory default settings using OSReset software.
NTP Server – Configure IP address of the external NTP (Network Time Protocol) server where OSBRiDGE device will obtain current time from at startup time.
VTUN Client - Please enter IP address of the VTUN server to connect and create Layer-2 bridge.
VTUN Compression - Enable or Disable VTUN Data Compression.
VTUN Encryption - Enable or Disable VTUN Data Encryption.

IP Settings

Bridge mode

Device IP – Enter device IP address here.
Subnet Mask – Enter network subnet mask here.
Default Gateway – IP address of a router where traffic going outside of the local network will be forwarded.

Router Mode

Wired Interface IP – Enter IP address of the wired interface here.
Wired Interface Mask – Enter wired network subnet mask here.
Wireless Interface IP – Enter IP address of the wireless interface here.
Wireless Interface Mask – Enter wireless network subnet mask here.
Default Gateway – IP address of a router where traffic not destined for defined routes / local routes will be forwarded.
Defined Routes – This table displays currently defined static routes. To delete a route select "Delete" checkbox and press Submit on the bottom of the page. Please note that it is not possible to delete first two entries – direct routes to local interfaces.

Add Route:
Direct – on wired or wireless interface - When router has two or more IP subnets directly attached to its different interfaces, it can route IP packets between those subnets using a direct route. A direct route consists of an IP Address which specifies the basic IP address to route, a Subnet Mask which defines the class of IP addresses that will be routed, and an interface which specifies where the IP subnet is attached. When an IP packet addressed to a system on the directly routed subnet arrives at the router, the router will send it directly to the target machine on the interface specified. When entering direct route use 0.0.0.0 as Gateway.
Indirect - When router needs to send IP packets between IP subnets which are not directly connected to one of its interfaces, it must have an indirect route for sending those packets. An indirect route consists of an IP Address which specifies the basic IP address to route, a Subnet Mask which defines the class of IP addresses that will be routed and a Gateway that will relay the IP packet. When an IP packet addressed to a system on the indirectly routed subnet arrives at the router, the router will route it over to the specified Gatway to be routed further.

Wireless Settings

MAC Address – MAC Address the wireless interface should use for operation. When set to 00:00:00:00:00:00 (default value) device will use factory assigned MAC address, when set to any other valid value the device will use user configured MAC address. MAC address can not be set to ff:ff:ff:ff:ff:ff, MAC address of the other wireless interface nor to the MAC address of the ethernet interface (the main MAC address visible in the System Info tab).
Output Power - By default, the OSBRiDGE 5G transmits data at the maximum output power for the regulatory domain selected and frequency used. With Transmit Power Control (TPC), you can adjust the output power of the unit to a lower level in order to reduce interference from neighboring devices.
Broadcast ESSID – Choose whether the device should broadcast its ESSID, so it would be visible to anyone, or if ESSID should not be broadcasted.
Fragmentation Threshold - Enter the size at which the packets will be fragmented.
Cell Size – Configure distance between OSBRiDGE 5G device and the most distant client connecting to it.
Data Rate – Choose data rate the device will support while connecting to the Access Point.

Available Data Rates are:
6, 9, 12, 18, 24, 36, 48 and 54 Mbps for regular 802.11a mode,
12, 18, 24, 36, 48, 72, 96 and 108 Mbps in 802.11a Turbo mode,
3, 4.5, 6, 9, 12, 18, 24 and 27 Mbps for 802.11a mode with 10 MHz channel width,
1.5, 2.25, 3, 4.5, 6, 9, 12 and 13.5 Mbps for 802.11a mode with 5 MHz channel width.

Association Timeout – Configure how much time has to pass before idle client device will be automaticaly disassociated by Access Point.
Operating Frequency – If the current configured Regulatory Domain allows manual frequency selection configure the frequency wlan interface operates on. If the Regulatory Domain requires auto channel selection then DFS (Dynamic Frequency Selection) is shown here.
Channel Width – Channel width the device is configured to operate. Available values are 20 MHz (standard width), 10 MHz (half width), 5 MHz (quarter width) and 40 MHz (802.11a Turbo mode).
WLAN Inter Client Traffic – Choose whether direct relaying of traffic from wireless clients connected to this wireless interface to other wireless clients connected to this wireless interface should be enabled or disabled.
Data Encryption – Enable or Disable over the air OSBRiDGE proprietary data Encryption here. This encryption scheme only works between compatible OSBRiDGE devices.
Encryption - Select generic encryption algorithm
WEP - Wireless Equivalent Privacy
WPA - Wireless Protected Access
WEP Key – Enter WEP encryption key here. Keys are entered as hexadecimal numbers in following format:
64 bit WEP: xxxx-xxxx-xx
128 bit WEP: xxxx-xxxx-xxxx-xxxx-xxxx-xxxx-xx
156 bit WEP: xxxx-xxxx-xxxx-xxxx-xxxx-xxxx-xxxx-xxxx
WPA Pairwise - select WPA encryption scheme - TKIP or CCMP (AES).
WPA Pre-shared Key - the key is entered as 8-63 characters long string, ie. OSBRiDGE.
Supported Data Rates – Enable or Disable WLAN Data Rates the OSBRiDGE 5G device should support when communicating with client devices.

QOS Settings

The built-in traffic shaper allows you to set up different data flow speeds for the device clients –
In IP Bridge Mode - based on MAC Address,
In IP Router Mode - based on IP Address or IP Subnetwork.

The Currently Defined QOS Entries table shows current traffic shaping configuration. First entry shows default uplink/downlink speed for connections that don’t have matching entries in the table. After that there are configured entries shown.
Non Listed Downlink Speed – Cumultative data flow speed for all packets going out of the Access Point through WLAN interface, that don’t match any of the configured entries.
Non Listed Uplink Speed – Cumultative data flow speed for all packets going out of the Access Point through Ethernet interface, that don’t match any of the configured entries.

Add Entry
Type – choose either MAC Address or IP Address.
Address – For MAC Address enter it as "xx:yy:xx:yy:xx:yy". For IP Address enter it as "x.x.x.x", or if you want to limit speed for whole subnetwork enter it as "x.x.x.x/y" (ie. 192.168.0.0/24 if you want to limit all IP addresses within 192.168.0.0 - 192.168.0.255 range).
Uplink Speed – Enter data flow speed for all packets matching defined IP/MAC address, going out of the Access Point through Ethernet interface.
Downlink Speed - Enter data flow speed for all packets matching defined IP/MAC address, going out of the Access Point through WLAN interface.

Firewall Settings

Built in Firewall allows you to pass or block traffic going through the device, based on selected criteria.
There are two tables shown on the configuration screen. "Ethernet" table shows currently defined firewall rules for the wired interface of the OSBRiDGE device. "Wireless" table shows currently defined rules for the wireless interface. You can delete existing firewall rule by selecting "Delete" checkbox on the right side of the rule and pressing Submit button.
Define New Rule (IP Bridge Mode):
Interface – Select the incoming interface the rule should apply to. Choose either Ethernet or Wireless interface.
Action – Select what to do with the packet matching the rule. You can either pass that packet through, or block it.
Protocol – Enter the number representing IP Protocol that should be matched. Use "*" to match all protocols. Most common numbers are:
"*" – All IP protocols
1 – ICMP protocol
6 – TCP protocol
17 – UDP protocol

For complete list of protocols please see Appendix 1 of this document, or go to: http://www.iana.org/assignments/protocol-numbers

Source – Source MAC address of the packet to be matched. Use "*" to match any MAC address.
Source Port – Source port of the packet to be matched. Use "*" to match any source port.
Destination – Destination MAC address of the packet to be matched. Use "*" to match any MAC address.
Destination Port - Destination port of the packet to be matched. Use "*" to match any destination port.

Define New Rule (IP Router Mode):
Interface – Select the incoming interface the rule should apply to. Choose either Ethernet or Wireless interface.
Action – Select what to do with the packet matching the rule. You can either pass that packet through, or block it.
Protocol – Enter the number representing protocol that should be matched. Use "*" to match all protocols. Most common numbers are:
"*" – All IP protocols
1 – ICMP protocol
6 – TCP protocol
17 – UDP protocol

For complete list of protocols please see Appendix 1 of this document, or go to: http://www.iana.org/assignments/protocol-numbers

Source – Source IP address or IP subnet (in x.x.x.x/y format) of the packet to be matched. Use "0.0.0.0/0" to match any IP address.
Source Port – Source port of the packet to be matched. Use "*" to match any source port.
Destination – Destination IP address or IP subnet (in x.x.x.x/y format) of the packet to be matched. Use "0.0.0.0/0" to match any IP address.
Destination Port - Destination port of the packet to be matched. Use "*" to match any destination port.

Authorized Stations

Authorized stations list, if the Authorization Table option is Enabled, defines MAC addresses of devices allowed to connect to the OSBRiDGE 5G device WLAN interfaces.

Each entry should be accepted by pressing SUBMIT button. After the table is complete you can press APPLY to get it working instantly, without need of rebooting the Access Point.

Site Survey

This tab allows to see other Access Points in range of each of the OSBRiDGE 5G interfaces.

Device Settings

Use this screen to change password which is used to access and configure the device.

Interface Status

This screen shows data graphs of traffic going through ethernet and wlan interfaces.

Associated Stations

This page shows information about devices that are currently associated to the access point. Depending on the mode the OSBRiDGE 5G device is operating (Access Point or Polling Base Station) the table will show following information:

Access Point Mode

No – Number of the associated entry.
Device Name - Name of the device either as configured on the Authorized Stations list or on the device.
MAC Address – MAC address of the associated device.
RX Signal – The RX Signal strength is the signal level the OSBRiDGE 5G device sees the associated client with.
Data Rate RX/TX – Over Air Data Rate for associated device. Data Rate is the speed at which OSBRiDGE 5G device sends packets to the client.
RX Bytes – Number of bytes that have been received from the station since it associated itself to the OSBRiDGE 5G device.
RX Packets – Number of data packets that have been received from the station since it associated itself to the OSBRiDGE 5G device.
TX Bytes – Number of bytes that have been transmitted to the station since it associated itself to the OSBRiDGE 5G device.
TX Packets – Number of data packets that have been transmitted to the station since it associated itself to the OSBRiDGE 5G device.
Quality - Connection quality to this CPE, reported as value between 1 and 100 (1 - worst, 100 - best).

Polling Base Mode

No – Number of the associated entry.
MAC Address – MAC address of the associated device.
Device Name – Device Name that has been configured on the client device, ie. if the client device is OSBRiDGE 5GXi operating in polling client mode and you configure device name "Uncle Sam" on it then that name will show up here in the associated stations list.
Firmware – Firmware version the client device operates.
Assoc. - Counter how many times this CPE has been re-associating to the OSBRiDGE 5G since last Access Point reboot.
Uptime – Uptime of the client device. This is the actual uptime of the client device since last reboot, not the time the device has been connected to the OSBRiDGE 5G.
IP Address - IP Address of the associated CPE. If you click on the IP address link here then you will be automaticaly forwarded to that CPE login screen.
IP Mode – mode the client device operates - ie. Bridge, Router or NAT Router.
CPE QOS D/U - Traffic shapping as configured on the CPE device with information about total downlink and uplink speed configured on the CPE.
Signal (RX/TX) – Signal strength in dBm for associated device. The RX Signal strength is the signal level the OSBRiDGE 5G device sees the client with, the TX Signal stregnth is the signal level the client device sees the OSBRiDGE 5G base station device with.
Data Rate (RX/TX) – Over Air Data Rate for associated device. RX Data Rate is the speed at which OSBRiDGE 5G device receives packets from the client, TX Data Rate is the speed at which OSBRiDGE 5G device sends packets to the client.
Packets (RX/TX) – Number of data packets that have been received (RX Packets) and transmited (TX Packets) to/from the station since it associated itself to the OSBRiDGE 5G device.
Bytes (RX/TX) – Number of bytes that have been received (RX Bytes) and transmited (TX Bytes) to/from the station since it associated itself to the OSBRiDGE 5G device.
Quality - Connection quality to this CPE, reported as value between 1 and 100 (1 - worst, 100 - best).

Firmware Upgrade

This page allows you to upgrade the device firmware. It is recommended to upgrade firmware only to newer version than the one currently installed in the device.

Please always remember to reboot the device first before you proceed with firmware upgrade.

Load Configuration

You can use this option to load device configuration from file.

Save Configuration

You can use this option to store current device configuration in a file.

SNMP Support

OSBRiDGE devices support SNMP monitoring feature and appropriate .mib file is provided with each firmware release.

An example usage of SNMP from a linux box looks as follows:

[root@gw root]# snmpwalk -c public -v 2c 10.0.0.6 enterprises.19025
SNMPv2-SMI::enterprises.19025.1.1.1.1.0 = STRING: "OSBRiDGE 5G"
SNMPv2-SMI::enterprises.19025.1.1.1.2.0 = STRING: "00:15:D6:07:32:84"
SNMPv2-SMI::enterprises.19025.1.1.1.3.0 = STRING: "3.27R"
SNMPv2-SMI::enterprises.19025.1.1.1.4.0 = STRING: "7.6.2.2"
SNMPv2-SMI::enterprises.19025.1.1.1.5.0 = INTEGER: 4
SNMPv2-SMI::enterprises.19025.1.1.2.1.0 = INTEGER: 1
SNMPv2-SMI::enterprises.19025.1.1.2.2.0 = STRING: "5740"
SNMPv2-SMI::enterprises.19025.1.1.2.3.0 = STRING: "Auto"
SNMPv2-SMI::enterprises.19025.1.1.2.4.0 = STRING: "447969899"
SNMPv2-SMI::enterprises.19025.1.1.2.5.0 = STRING: "435419"
SNMPv2-SMI::enterprises.19025.1.1.2.6.0 = STRING: "756325239"
SNMPv2-SMI::enterprises.19025.1.1.2.7.0 = STRING: "451904019"
SNMPv2-SMI::enterprises.19025.1.1.2.8.0 = STRING: "9186026"
SNMPv2-SMI::enterprises.19025.1.1.2.9.0 = STRING: "2935455760"
SNMPv2-SMI::enterprises.19025.1.1.2.10.0 = INTEGER: 1
SNMPv2-SMI::enterprises.19025.1.1.2.11.0 = STRING: "5460"
SNMPv2-SMI::enterprises.19025.1.1.2.12.0 = STRING: "Auto"
SNMPv2-SMI::enterprises.19025.1.1.2.13.0 = STRING: "445986491"
SNMPv2-SMI::enterprises.19025.1.1.2.14.0 = STRING: "489095"
SNMPv2-SMI::enterprises.19025.1.1.2.15.0 = STRING: "595597410"
SNMPv2-SMI::enterprises.19025.1.1.2.16.0 = STRING: "449823519"
SNMPv2-SMI::enterprises.19025.1.1.2.17.0 = STRING: "4420533"
SNMPv2-SMI::enterprises.19025.1.1.2.18.0 = STRING: "444397668"
SNMPv2-SMI::enterprises.19025.1.1.3.1.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.2.0 = IpAddress: 192.168.2.254
SNMPv2-SMI::enterprises.19025.1.1.3.3.0 = IpAddress: 255.255.255.0
SNMPv2-SMI::enterprises.19025.1.1.3.4.0 = IpAddress: 192.168.1.254
SNMPv2-SMI::enterprises.19025.1.1.3.5.0 = IpAddress: 255.255.255.0
SNMPv2-SMI::enterprises.19025.1.1.3.6.0 = IpAddress: 192.168.1.253
SNMPv2-SMI::enterprises.19025.1.1.3.7.0 = IpAddress: 255.255.255.0
SNMPv2-SMI::enterprises.19025.1.1.3.8.0 = IpAddress: 192.168.1.1
SNMPv2-SMI::enterprises.19025.1.1.3.9.0 = STRING: "5 days, 5:49"
SNMPv2-SMI::enterprises.19025.1.1.3.10.0 = STRING: "Not Available"
SNMPv2-SMI::enterprises.19025.1.1.3.11.0 = STRING: "72%"
SNMPv2-SMI::enterprises.19025.1.1.3.12.0 = STRING: "osbridge1"
SNMPv2-SMI::enterprises.19025.1.1.3.13.0 = INTEGER: 2346
SNMPv2-SMI::enterprises.19025.1.1.3.14.0 = INTEGER: 6
SNMPv2-SMI::enterprises.19025.1.1.3.15.0 = STRING: "osbridge2"
SNMPv2-SMI::enterprises.19025.1.1.3.16.0 = INTEGER: 2346
SNMPv2-SMI::enterprises.19025.1.1.3.17.0 = INTEGER: 6
SNMPv2-SMI::enterprises.19025.1.1.3.18.0 = INTEGER: 600
SNMPv2-SMI::enterprises.19025.1.1.3.19.0 = INTEGER: 1
SNMPv2-SMI::enterprises.19025.1.1.3.20.0 = IpAddress: 192.168.1.1
SNMPv2-SMI::enterprises.19025.1.1.3.21.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.23.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.25.0 = STRING: "OSBRiDGE 5G"
SNMPv2-SMI::enterprises.19025.1.1.3.26.0 = INTEGER: 1
SNMPv2-SMI::enterprises.19025.1.1.3.27.0 = INTEGER: 1
SNMPv2-SMI::enterprises.19025.1.1.3.28.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.29.0 = INTEGER: 5
SNMPv2-SMI::enterprises.19025.1.1.3.30.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.31.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.32.0 = INTEGER: 5740
SNMPv2-SMI::enterprises.19025.1.1.3.33.0 = INTEGER: 5460
SNMPv2-SMI::enterprises.19025.1.1.3.34.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.35.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.36.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.37.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.38.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.3.39.0 = INTEGER: 0
SNMPv2-SMI::enterprises.19025.1.1.4.1.0 = STRING: "
NO MAC NAME FIRMWARE UPTIME IP_MODE SIGNAL(RX/TX) DATA_RATE(RX/TX) PACKETS(RX/TX) BYTES(RX/TX)
1 00:15:d6:05:05:50 Jan Kowalski 3.29 8d, 13h, 36m Router -77dBm/-76dBm 36Mbps/48Mbps 219350554/219711141 5371644608/4909891066
2 00:50:fc:48:02:02 Janina Kowalska 3.29 5d, 5h, 12m Router -86dBm/-82dBm 24Mbps/18Mbps 232563876/227687912 16251790255/5221634920
"
SNMPv2-SMI::enterprises.19025.1.1.4.2.0 = STRING: "
NO MAC NAME FIRMWARE UPTIME IP_MODE SIGNAL(RX/TX) DATA_RATE(RX/TX) PACKETS(RX/TX) BYTES(RX/TX)
1 00:50:fc:48:06:36 OSBRiDGE 5XLi 3.29 8d, 16h, 9m Router -87dBm/-83dBm 24Mbps/24Mbps 449829015/445407692 11413012253/9895107175
"
[root@gw root]#

TFTP Firmware upgrade

Each OSBRiDGE device allows firmware upgrade via TFTP.

From the Windows DOS box you need to enter following command:

X:\>tftp -i -s 192.168.1.254 PUT OSBRiDGE_5G_3.18R.bin admin_public

WinAgents TFTP Client version 1.3 Copyright (c)2004-2005 by Tandem Systems,Ltd.
http://www.winagents.com - Software for network administrators

Transfering file OSBRiDGE_5G_3.18R.bin to server in octet mode...
Using blocksize = 512
Using TFTP timeout = 10s
File OSBRiDGE_5G_3.18R.bin was transferred successfully.
1964844 bytes transfered for 63 seconds, 31188 bytes/second

X:\>

Please note that username (admin) and password (public in this case) required for authorization are sent to the device as remote file name (admin_public).

The device will accept firmware, reflash and reboot automaticaly.

Emergency firmware restore procedure.

Should the OSBRiDGE device fail or loose power during firmware upgrade the built-in bootloader allows easy firmware restore.

Indication of the device requiring firmware restore is WLAN and Ethernet LEDs blinking subsequentialy for 10 seconds immediately after device power up. Please note however that the LEDs may not always blink when firmware restore is required.

This is the step by step procedure required to perform:
1. You need to obtain tftp server software, the free one is available at http://tftpd32.jounin.net/
2. Install tftpd32.exe into the catalog where firmware files are located
3. Rename the firmware file into upgrade.bin
4. Change your computer IP address to 192.168.1.23 netmask 255.255.255.0
5. Connect the OSBRiDGE device to the computer via cross-over cable or via network switch
6. Turn on the OSBRiDGE device, it should initiate the transfer automaticaly, automaticaly reflash and reboot itself.

Resetting device to default settings.

In order to reset OSBRiDGE device to factory default settings you need to use OSReset software available for download at http://www.osbridge.com/?q=en/software

OSReset will locate any compatible OSBRiDGE device regardless of its IP address located on the same physical subnetwork with the computer it is running on.

After selecting the device you want to reset enter "Reset to Default Password" in the Password: field and press button.

If you have changed Reset to Default Password to one you no longer remember then please email us at support@osbridge.com stating device type and MAC Address and we will provide you one time, generated password that will let you reset the device to factory default settings.



Copyright 2005-2008 OSLiNK Sp. z o.o., Gdansk, Poland. All Rights Reserved.