aredn/files/www/help.html

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Table of Contents:
<ul>
<li><a href='#status'>Status Page</a></li>
<li>Setup</li>
<ul>
<li><a href='#setup'>Basic Setup</a></li>
<li><a href='#lanmode'>LAN Mode</a></li>
<li><a href='#ports'>Port Forwarding, DHCP, and Services</a></li>
<li><a href='#admin'>Administration</a></li>
</ul>
<li><a href='#appendix'>Appendix</a></li>
<ul><li><a href='#failsafe'>Failsafe Mode</a></li></ul>
<ul><li><a href='#tftp'>Installing firmware with tftp</a></li></ul>
</ul>

<hr>

Please take note:
<ul>
<li>Javascript and page redirection must be enabled in your browser for the
web interface to work.<br><br></li>
<li>Some operations can take several seconds, or even longer, to
  complete. There is currently no feedback while the node is working on your
  request. Be patient and wait for the web interface to respond before trying
  to click other buttons.<br><br></li>
<li>Avoid the use of your browser's back, forward, and reload buttons. Every
  page has navigation controls to take you where you want to go.<br><br></li>
<li>The various pages of the web interface are intended to be used by only one
  person at a time. This is especially important on the setup pages where
  using them from multiple browsers or multiple computers at the same time
  will almost certainly cause problems.  Viewing different pages at the same
  time should not cause any conflicts.</li>
</ul>




<hr>
<a name=status><h2>Status Page</h2></a>
<p>
This is the first page you will see when
accessing <b>http://localnode:8080/</b> or <b>http://your-node-name:8080/</b>.
The top bar displays the node name and also a tactical name if one has been
assigned. For more about tactical names see the <a href='#setup'>Basic Setup</a>
section.
</p>
<p>
Below the name bar there will be a few control buttons. Some of these
buttons may not be available depending on the current configuration:
</p>

<ul>
<li><strong>Refresh</strong> will update the page with current data.<br><br></li>

<li><strong>Mesh Status</strong> takes you to a page which shows what
Neighbor nodes and Remote nodes are visible as well as what services are being
provided through those nodes.
<br><br></li>

<li><strong>OLSR Status</strong> takes you to the web pages that OLSR itself
 provides which gives you detailed information about the current state of the
 OLSR routing software.<br><br></li>

<li><strong>WiFi Scan</strong> displays a list of other 802.11 signals that the
node can see and only of the same bandwidth.   The 802.11 signals include
Access Points (AP), neighbor nodes (connected ad-hoc stations), and other mesh networks 
(foriegn ad-hoc networks). The AREDN mesh is created on top of an 802.11 'ad-hoc' network.  
Consequently when multiple ad-hoc networks are visiable to each other (different SSID or 
channel), the 'network' is displayed and not individual nodes (stations).  There is also an 
automatic scan mode. It is not recommend to run a wifi scan continously because this will degrade mesh 
performance. A wifi scan transmits queries on all channels to discover other devices.<br><br></li>

<li><strong>Setup</strong> takes you to the setup pages of the web
interface. You will need to supply a username and password to access those
pages. The username is always "root", and the password is the one you set on
the Basic Setup page. If the node has not yet been configured, the password is
"hsmm". Note that the password given to log in to the setup pages is encrypted
in transit, so this is safe to do over a wireless connection.<br><br></li>

<li><strong>Select Theme</strong> switches display themes/styles. Black on white was chosen because it provides the best screen visibility on a laptop exposed to direct sunlight. Red on black is much
better suited for night time use as it helps preserve night vision.</li>
</ul>

<p>
<br>The left column contains the details of the network interfaces used on
this node, the default gateway if one is available, and the IP address and
name (if known) of the device accessing this page.
</p>
<p>
The right column contains the signal strength reading and other attributes of
your node.  The <b>Signal/Noise/Ratio</b> is a reading of the WiFi signal
strength in dBm, and it is available only when the node is in a Mesh or Client
configuration.  The <strong>Auto</strong> button will take you to an
automatically refreshing display of the current signal strength and an average
of the last 20 readings. This is provided as an aid to assist in antenna
aiming. It is of no use until another node is visible, so it is best used a a
fine-tuning tool.  Also, this reading is of little use if your node can
directly see more than one other node.  In this case you should temporarily
change the wireless SSID of the two nodes you are aiming antennas for so that
the other visible nodes will be excluded from this reading.  Just remember to
change the SSID back when you are finished.  Note that the
use of the <b>Auto</b> feature will negatively impact the mesh performance of
the node it is running on so it is best used for short periods of time while
aiming an antenna. For the best results it should be accessed from the LAN
side of your local node.  Running this page on a remote node will be less
responsive due to the mesh performance degradation.
</p>
<p>
The <b>system time</b> is kept in UTC and begins at midnight on Jan
1, 2000. There is no internal battery or real time clock so the time will
reset every time the node is booted.  If an internet connection becomes
available the internal NTP (network time protocol) client will connect with an
internet time server and the time will be kept in sync with atomic time for as
long as the internet connection is available.
</p>
<p>
The <b>uptime</b> shows how long the node has been running since its last
boot, and the <b>load average</b> is the average number of processes that have
been running for the last 1, 5, and 15 minutes. The load average will
typically be less than 1 for each time slot.
</p>
<p>
<b>Free space</b> tells you how much space is available on local storage
devices. Flash is the internal non-volatile storage where the operating
system, configuration files, and software packages are kept. /tmp is a
filesystem in RAM that stores the current state information and various
temporary files. Memory is the amount of RAM available for running processes.
</p>

<br><br><hr>
<a name=setup><h2>Basic Setup</h2></a>
<p>
This is where the basic networking settings are made for the node.  Because of
the way AREDN&trade; is designed you generally will not need to change any of the
settings on this page other than the node name/type and password.
<u>Do not change any of the network settings unless you fully understand how
the mesh works and why the default is not suitable for your application.</u>
One reason AREDN&trade; exists is to eliminate, as much as possible, the need to
manually configure the network.
</p>
<p>
The buttons on this page work as follows:
</p>
<ul>
<li><strong>Save Change
s</strong> will check the validity of all the
entered information and save it to flash memory if no errors are found. A
reboot is required to make most changes on this page take effect, and should
  be done as soon as possible to avoid configuration mismatch problems.<br><br></li>

<li><strong>Reset Values</strong> will reload the current settings from
flash memory and undo any changes that have been made.<br><br></li>

<li><strong>Default Values</strong> will set all values to their default
values except the Node Name and Password. These default values are not saved
until Save Changes is clicked.<br><br></li>

<li><strong>Reboot</strong> will immediately reboot the node.</li>
</ul>

<p>
<br>
<strong>Node Name</strong> sets the hostname for the node. Hostnames can
contain up to 63 letters, numbers, and dashes, but cannot begin or end with a
dash.  Underscores, spaces, or any other characters are not allowed.
Hostnames are not case sensitive, but the case will be preserved. 
</p>
<p>
As ham radio operators there are other requirements we must follow,
namely identification of all transmitting stations. This hostname is beaconed
automatically by the node every five minutes, so the hostname must contain
your callsign. Recommended hostnames follow the (callsign)-(name) format, such
as ad5oo-mobile or ad5oo-1. This is similar to the MYCALL setting you would
give a packet TNC, but without the 0-15 restriction for the name part.
</p>
<p>
It is here that you can also set a tactical name for your node. A tactical
name is just another name that your node is known by. If you are familiar with
DNS records, this serves a purpose similar to a CNAME record.  This is helpful
in an emergency deployment situation where if for example several Red Cross
shelters are being linked. In addition to the normal hostname you can give
each node a tactical name such as shelter1, shelter2, shelter-north,
etc. Tactical names have the same restrictions as hostnames, and are
accessible through DNS like the main node names are.
</p>
<p>
To set a tactical name, put a slash after the the node name then give
the tactical name.  For example, "ad5oo-1/shelter5".
</p>
<p><br>
<strong>Node Type</strong> sets the operational mode of the device as follows:
<ul>

<li><strong>Mesh Node</strong><br>

This is the main mode of the router, and the reason this firmware is running
in the first place.  The WiFi interfaces of multiple nodes form a mesh
network, the LAN interfaces provide access to that mesh to other devices, and
the WAN interface provides outbound network access, typically to the internet.
<br><br></li>

<li><strong>Mesh Access Point</strong><br>

In this mode the device is pre-configured to act as an access point providing
standard wireless access to the LAN side of another mesh node.  This is to be
used on a second router whose LAN port is connected with the LAN port of a
mesh node. It is a simple mode but there are special considerations,
especially when you want to get out of this mode.  See the section at the end
called <a href='#meshap'>Mesh Access Point considerations</a> for details.
<br><br></li>

<li><strong>Standard Access Point</strong><br>

In this mode the device acts like any other standard access point, although
with fewer configuration options.  It is provided mainly as a convenience if
you need a basic access point.  If you need a full featured access point,
consider using either a stock router or one running conventional access point
firmware.
<br><br></li>

<li><strong>Wireless Client</strong><br>

This mode allows you to connect a wired network interface to a wireless
network.  The WiFi interface acts as a client to a separate access point, and
the LAN provides access to the wired device.  This mode does not provide a
wireless bridge, instead it uses NAT and is routed.
<br><br></li>

<li><strong>Wired Router</strong><br>

In this mode the WiFi is disabled and the LAN and WAN ports have their usual
roles.  This is "just a router" with no wireless functions.
<br><br></li>

</ul>
</p>
<p>
<strong>Node Type</strong> sets the operational mode of the node. For
our purposes it will be set to Mesh Node, but if needed it can also be set to
one of the other modes, to be described at a later time.
</p>
<p>
The one mode I will mention is called Mesh Access Point. It is a
configuration meant to be used to give standard wireless access to the LAN
port of a mesh node. This is to be used on a second router whose LAN port is
connected with the LAN port of a mesh node. When running a router in this mode
it does not use OLSR and as a result its hostname is not available to the
mesh.  It can be accessed from the LAN by its IP address which by default is
172.27.0.2.  Like the name "localnode", an automatically generated name exists
called "localap" which is set to the localnode address plus one, but only when
the node is operating in the default NAT mode.
</p>
<p>
<strong>Password</strong> is where you set the administration password
for the node. It needs to be entered again in the Retype Password box to help
ensure its accuracy. It is not necessary to enter a password unless you want
to change its value, and the first time the node is configured it is required
that you change the password. Note that these passwords entries are NOT
encrypted in transit, so this is best done from a direct wired connection to
the node.
</p>
<p>
The <strong>WiFi</strong>, <strong>LAN</strong>,
and <strong>WAN</strong> boxes are where the details of each of these network
interfaces are set.
</p>
<p>
In the <strong>WiFi</strong> box there are settings shown as being
Active Settings. These settings can be changed without rebooting the node by
clicking the <strong>Apply</strong> button, but unless they are saved they
will revert to the previously saved values after a reboot.<br> <br>
The <strong>Rx Antenna</strong> and <strong>Tx Antenna</strong> settings have
been removed from current builds. The hardware handles antenna selection
automatically in the backend without need for configuration. 
<br>
As always a dummy load on unused RF ports is recommended to keep out physical
contaminants and to avoid EMI/RFI interference.
</p>
<p>
The <strong>Distance</strong> setting adjusts the packet retry timer
to account for stations that are very far away, presumably about 300 meters or
more. The value should be set to the distance in meters to the farthest node
that you expect to communicate with. A value of 0 sets it to automatic, which
may or may not be suitable for your application. The only way to know is to
experiment with it. Changes smaller than 150 meters do not affect the
settings, so the value entered here will be reduced to the smallest multiple
of 150 that produces the same effect.
</p>
<p>
The <strong>LAN</strong> box allows you to set the LAN IP Address
of the node and the address range of the DHCP server, and these should be
self explanatory.  The <b>LAN Mode</b> is described in the next section.

<br><br>
The <strong>Disable Default Route</strong> checkbox will cause the node to not 
advertise that it should be chosen as the default route. This means that
computers plugged into the node will not try and route to the internet or
other networks via the mesh node and will only try and use the mesh node for
the 10.0.0.0/8 and 172.16.0.0/12 "mesh" network ranges. You will not be able
to access the internet, even if your node has internet available on its wan 
port with this setting checked. This also applies to internet available over
the mesh. Use this only if you know what a default route is and you need to
be connected to two networks at once such as wired to the mesh, and WiFi to
a local served agency network.

<!--
, but the <strong>Mesh Bridge</strong> function will be described
here.  Given that AREDN&trade; is not restricted to the standard channels of the
2.4GHz ISM band, it is possible that two nodes can be in range but not be able
to communicate because they are using different radio parameters or are on an
entirely different band.  The Mesh Bridge function allows them to communicate.

<br><br>
<u>The use of this function requires central coordination.  This is a
specialized and rarely needed function.  Improper use will cause network
problems for everyone.  Please contact us at aredn.org to receive a set of
customized network parameters if you have a need to bridge your meshes.</u>
-->
</p>
<p>
The <strong>WAN</strong> box contains the settings used to
connect with an upstream network, usually an internet connection.  The DNS
servers are set by default to the Google DNS servers and should not be changed
under normal circumstances.  More and more ISP's are adopting the "helpful"
but <u>broken</u> behavior of taking you to an ISP generated web page if you
incorrectly type in a URL or if the host you are trying to reach no longer
exists.  The proper behavior is for your browser to be able to detect these
error conditions and report them accordingly.  Google follows the rules and
allows for the proper operation of the network.
</p>
<p>
When the WAN protocol is set to disabled you have the option of using a
default gateway on the LAN.  Integrating an existing LAN with a mesh node LAN
is an expert level undertaking and there are far too many considerations to be
covered here.
</p>
<p>
The other option in the WAN box is the <strong>Mesh Gateway</strong>.
This is an advanced configuration option.<br>
When a node has internet access from either the WAN or LAN, that access is
available to the node itself and to any computer connected to the LAN port.
When the Mesh Gateway is enabled this node will gate(route) traffic from the 
mesh onto this network and the internet.

By default it is disabled, so consider carefully your
intentions for enabling it. AREDN&trade; is an FCC Part 97 amateur radio
computer network, so be sure that any internet traffic that will be sent over
radio needs to comply with Part 97 rules.  If you just want local wireless
internet access, consider using a standard Part 15 compliant access point
instead of the Mesh Gateway function.
</p>
<p>
<br>
<a name=lanmode><b>LAN Mode</b></a>
</p>
<p>
The default mode is called <b>5 Host Direct</b> mode and in this mode every host
on the LAN has direct access to and from the mesh.  The LAN shares the same
address space as the mesh.  Port forwarding is not needed because NAT is not
used, and there is no firewall in between the LAN and the mesh.  This mode was
created because some services do not work well (or at all) through NAT, and to
reduce the amount of manual configuration needed to provide services to the
mesh.
</p>
<p>
The mesh address space is automatically managed, so in Direct mode the LAN is not
user configurable.  Those of you familiar with setting up commercial ISP
access with static IP addresses should already be comfortable with this mode.
Like commercial ISP access, you cannot decide for yourself what the network
parameters are.  You have to use the parameters which are given to you.  But
unlike most commercial ISP access there is a DHCP server available on the mesh
node to configure the hosts that are attached to the LAN. 
</p>
<p>
The only configurable option available in Direct mode is the size of the LAN subnet
which can accommodate either 1, 5, or 13 LAN hosts. The one host subnet
can be useful for either a single server or a commercial grade router using
its own NAT which is capable of more advanced routing functions than those
available from a mesh node.
</p>
<p>
It is important to not use a subnet larger than is necessary because the
chances of an IP address conflict on the mesh increase with the size of the
subnet.  The LAN subnet parameters are automatically generated and depend on
the IP address of the WiFi interface.  If a conflict does occur it can be
fixed by changing the WiFi IP address.
</p>
<p>
The other LAN Mode is NAT, which stands for Network Address Translation.  In
this mode the LAN is isolated from the mesh and all outgoing traffic has its
source address modified to be the WiFi address of the mesh node.  This is the
same way that most routers use an internet connection, and all services
provided by computers on the LAN can only be accessed through port forwarding
rules.  A single DMZ server can be set up to accept all incoming traffic that
is not already handled by other rules or by the node itself.
</p>

<hr width=500>
<a name='meshap'><h4>Mesh Access Point considerations</h4>
<p>

When a device is configured in Mesh Access Point mode it is essentially
'transparent'.  You are going <u>through</u> the device to reach a mesh node,
and there is no need to get <u>to</u> the device unless you wish to change its
configuration. When the time comes to reconfigure a device in this mode be
aware that it is not running its own DHCP server because that is the job of
the mesh node it is connected to.  You will need some other way to configure
your computer's network interface.  There are two ways to do this:

<ol>
<li>Manual configuration<br> Connect only your computer to the LAN port.  Set
your IP address to 172.27.0.100 and your netmask to 255.255.255.0.  No other
settings are needed.<br><br>
</li>
<li>
Automatic configuration<br> You will need another mesh node that is using NAT
mode on its LAN, and using the default LAN IP address of 172.27.0.1.  Both of
these are required, otherwise this method will not work.  Connect
both your computer and the LAN of the Mesh Access Point to the LAN of the mesh
node.
</ol>

In this mode the default IP address on the LAN port is 172.27.0.2.  After one
of the above steps you should be able to send your browser
to <a href='http://172.27.0.2:8080/'>http://172.27.0.2:8080/</a>.  If you used
automatic configuration you should also be able to go
to <a href='http://localap:8080/'>http://localap:8080/</a>.  Like the name
"localnode", an automatically generated name exists called "localap" which is
set to the localnode address plus one, but only when the node LAN mode is set
to NAT.  If you changed the default IP address of a Mesh Access Point you will
have to modify these instructions accordingly.
</p>

<br><br><hr>
<a name='ports'><h2>Port Forwarding, DHCP, and Services</h2></a>
<p>
The buttons on this page works as follows:
</p>
<ul>
<li><strong>Save Changes</strong> will do a basic validation of the entered
data save it to flash memory if no errors are found. The settings take effect
in about 20 seconds and a reboot is NOT required. Note that the checks
performed are not comprehensive and it is possible to use settings that at
best will not work and at worst will break the node's configuration.
<br><br></li>
<li><strong>Reset Values</strong> will reload the current settings from
flash memory and undo any changes that have been made.
<br><br></li>
<li><strong>Refresh</strong> will reload the page and it is useful for two things.
It will update the list of DHCP leases for any new hosts that have been
configured on the LAN, and it will also validate the settings entered on the
page and incorporate changed settings that may affect other settings.  You
should do this before saving the changes to make sure everything is set up as
intended.</li>
</ul>
<p><br> The way this page works depends on whether the LAN is operating in NAT
mode or Direct mode.  First we will cover NAT mode, where hosts on the LAN are
insulated by a firewall and NAT from both the WiFi and WAN interfaces. This
makes them inaccessible from either of these interfaces unless Port Forwarding
is set up. Here are some common ports:
</p>
<ul>
<li>20 ftp-data </li>
<li>21 ftp - file transfer protocol </li>
<li>22 ssh - secure shell </li>
<li>23 telnet </li>
<li>25 smtp - simple mail transport protocol </li>
<li>53 dns - domain name service </li>
<li>80 http - hypertext transport protocol </li>
<li>123 ntp - network time protocol </li>
<li>698 olsr - optimized link state routing </li>
<li>1978 olsr http - olsr's web interface </li>
<li>2222 node ssh server</li>
<li>8080 node web server</li>
</ul>
<p>
So then what is port forwarding? Port forwarding is taking an inbound
connection to a port from the WiFi or WAN interface and forwarding it to an IP
address on the LAN. The port number need not be the same. If you have hosts on
the LAN that provide services you want to make available to the mesh all it
takes is a Port Forwarding rule to make that happen.
</p>
<p>
If you want to forward a range of ports, the <strong>Outside Port</strong>
will accept a range in the form "2000-3000".  Use a hyphen to separate the low
and high values.  When doing this, set the <strong>Inside Port</strong> to the
low value of the port range.  When forwarding a port range the outside and
inside ports must be the same, moving them will not work.
</p>
<p>
If you want to forward every port that is not already in use to a
single computer on the LAN, choose that computer's IP Address from
the <strong>DMZ Server</strong> selector.  There can be only one DMZ Server.  Be
aware that this bypasses the firewall in the node, so this computer should be
running its own firewall to prevent unauthorized access.
</p>
<p>
<i>Example</i>:
<br><br> On the LAN of a mesh node called ad5oo-mobile is an IP camera that is
running its own web server. The address of that camera is 172.27.0.240. I want
to make that camera available to everyone on the mesh so I set up a port
forwarding rule on the WiFi interface whose outside port is 8100, IP address
is 172.27.0.240, and inside port is 80. This takes all connections to port
8100 on ad5oo-mobile and redirects them to port 80 on 172.27.0.240. In a web
browser on a computer connected to a different node you would go to
http://ad5oo-mobile:8100 and would be connected to the IP camera.
</p>
<br>
<p>
Note that port forwarding to an FTP server, which uses both ports 20 and 21,
can be done with a single rule using port 21 if the ftp client is capable of
using passive ftp mode.  Web browsers are able to do this and handle ftp
downloads quite nicely.
</p>
<p>
<br>
<strong>Advertised Services</strong>
</p>
<p>
When you want to let others know about services you are providing, the
Advertised Services will appear on the Mesh Status page of all other nodes on
the mesh. All advertised services need a name, and no services can be
advertised until at least one port forwarding rule or a DMZ server has been
defined.
</p>
<p>
If the service is one that is accessible through a web browser, such as a web
or ftp server, you can make the name appear as a clickable link by checking
the Link box.  All links need two parameters: a protocol and a port number.
Web servers use the http protocol and ftp servers use the ftp protocol.  Other
servers may use other protocols.  The port number should be the one used as
the Outside Port in the forwarding rule through which the service can be
accessed.  In the last field you can enter an optional link suffix to give the
link a more specific path if needed, such as the name of a specific page on a
web server, or a directory or file on an ftp server.
</p>
<p>
<br>
<strong>DHCP Reservations</strong>
</p>
<p>
If you are providing services to the mesh from hosts on the LAN you will want
to either override or make permanent the automatically assigned IP address for
that host. The DHCP Reservations section is where you do that. In order for
port forwarding to work, the IP address must match that of the host being
forwarded to. If it is currently attached and has been set up by DHCP it will
be listed under <b>Current DHCP Leases</b>. If you click the <b>Add</b> button
next to the lease it will be added to the DHCP Reservations list. You can
leave the information as it is or edit it to suit your needs. You can also
enter your own information into the blank slots under DHCP Reservations and
click <strong>Add</strong> to create your own entry.
</p>
<p>
For each of the sections on this page, simply entering information into the
fields next to the <b>Add</b> buttons is not enough.  The settings are not
entered until the <b>Add</b> button is clicked.  Before saving changes the Add
fields must be either added or cleared.
</p>
<p>
<br>
<b>Direct Mode Operation</b>
</p>
<p>
When the LAN is operating in Direct mode both this page and the mesh work a
little differently. Since in Direct mode the LAN hosts are accessed directly
from the mesh and no port forwarding is involved, the advertised services are
based upon which LAN hosts exist, and this is determined by the DHCP Address
Reservations that are defined.  After the DHCP Reservations have been made,
services can be advertised in the same way as before with the additional
requirement of selecting the name of the host that is providing the service.
</p>
<p>
Another difference in Direct mode is that the hostnames used in DHCP
Reservations are also advertised to the mesh and therefore <u>must be
unique</u> on the mesh. So, "webserver" would be perfectly suitable for a
service name, but a very poor choice for a hostname because there can be only
one host with this name on the entire mesh.  Just as you used your callsign in
the hostname for the node, it would also be a good idea to use it in DHCP
Reservation hostnames.  Therefore, <nobr>"ad5oo-webserver"</nobr> is a good
choice of hostname as it is unique and only the callsign holder needs to keep
track of the hostnames he has assigned himself.
</p>
<p>
The hostnames being discussed here are those that are defined in the DHCP
Reservations and available to the mesh, not those that the LAN hosts call
themselves.  While it can be convenient for them to be the same, there is no
reason that they must be.  For example, the
name <nobr>"ad5oo-webserver"</nobr> used above can be the name on the mesh for
a host that calls itself "skywalker".  But be aware that if this host is in
fact a webserver, the webserver configuration should use the
name <nobr>"ad5oo-webserver"</nobr> because the name "skywalker" will not be
known on the mesh and any pages the webserver generates itself such as error
pages may use the "skywalker" name.
</p>
<p>
There are two considerations to keep in mind regarding the size of the subnet
chosen for the LAN.  First, when using a one host subnet, the DHCP Reservation
used for that single host will prevent any other host from receiving a DHCP
lease.  So if for some reason the original host is not connected to the LAN
and you need to get back in to the node to reconfigure it, the easiest way is
to access it from a different node on the mesh.
</p>
<p>
Second, if the node is already in Direct mode and you intend to reduce the
size of the LAN subnet, you should first remove the DHCP Reservations that
will fall outside of the address range of the smaller subnet.  Note that the
automatically assigned network address will change if the subnet size is
changed, and that internally the DHCP Reservations are stored as offsets from
the network address, so address reservations which fall within the new subnet
size will be translated into the new subnet address space.
</p>
<br><br><hr>
<a name=admin><h2>Administration</h2></a>
<p> 
<strong>Firmware Update</strong> is how new firmware is installed on the node.
If you have a firmware image on your computer, click
the <strong>Browse</strong> button and select the firmware file to upload.
Click <strong>Upload</strong> and the file will be uploaded and installed. If
the node has internet access (either from the WAN port or from the mesh) you
can use the <strong>Download Firmware</strong> option.
Click <strong>Refresh</strong> to get the list of available images.  Select
the image to download, click <strong>Download</strong>, and wait for the
firmware to download and be installed.
</p>
<p>
A new feature in the 0.4.0 firmware is the ability to install firmware
patches.  This means that updated files can be installed directly on the node
without having to replace the entire firmware.  Except in cases where the
patch contains updated configuration files, patches can be installed while
preserving the existing node configuration.  However, certain patches will
require that the node be rebooted to take effect, and this will happen
automatically when it is needed.
</p>
<p>
<strong>Package Management</strong> allows you to install and remove
software packages on the node.  <strong>Upload Package</strong> allows you to
install a package file from your computer.  <strong>Download Package</strong>
allows you do retrieve a package over the internet from the AREDN&trade; website.
Clicking <strong>Refresh</strong> will populate the list of packages available
for download, but don't do this frivolously. The package information database
gets stored locally and will use about 100KB of space in flash memory. The
average user will probably never have to use this function.
</p>
<p>
The <strong>Remove Package</strong> list shows all packages on the
node.  Selecting a package and clicking <strong>Remove</strong> will remove
the package. You will only be able to remove packages that you have
installed. All installed packages are shown but the set that comes
pre-installed is necessary for proper operation of the node and they cannot be
deleted.
</p>
<p>
<strong>Authorized SSH Keys</strong> are useful for both developers
and anyone managing a "fleet" of nodes. It allows connecting to a node via ssh
without having to know the password. For developers, it also allows you to
easily scp an updated file to the node without having to reinstall the
firmware.
</p>
<p>
To generate a key on a Linux system, issue the command
"<strong>ssh-keygen -t rsa</strong>" and hit enter at all the prompts to
accept the defaults.  It creates a file
called <strong>~/.ssh/id_rsa.pub</strong>, which is the file you upload to
install the key on the node. If you want to remove a key just select it and
click the <strong>Remove</strong> button.
</p>
<p>
For fleet managers, having an authorized key installed is the best way gain
access to a node for which you do not know the password. If you want to set
the password to "abc", simply ssh to the node and run "<strong>setpasswd
abc</strong>", then reboot.  If you don't have an authorized key installed,
the only way in is to use <a href='#failsafe'>Failsafe Mode</a> as described
in the appendix.
</p>

<hr><a name='appendix'><h2>Appendix</h2></a><hr>

<a name='failsafe'><h3>Failsafe Mode</h3></a>
<p>
Failsafe Mode is a method of booting a node into a minimal configuration which
allows you to log in and undo a change that may have broken the node or to
change a forgotten password without having an authorized ssh key in
place. Since fixing a node is an advanced topic suitable only for experts,
here I will just cover how to change a password.
</p>
<p>
How to use failsafe mode:

<ul>
<li>connect your computer the the LAN port of the node</li>
<li>use a static IP address of 192.168.1.2 and netmask 255.255.255.0<br>
(default gateway and DNS are not necessary)</li>
<li>apply power to the node</li>
<li>just after the Status 4 LED illuminates, hold the reset button until DMZ starts blinking</li>
<li>at a command prompt run "<b>telnet 192.168.1.1</b>"</li>
<li>you should now have a prompt that looks like "root@(none)$"</li>
<ul><li>if not, you are not in safe mode and something went wrong along the way, so stop here and start over</li></ul>
<li>type "<b>mount_root</b>"</li>
<li>type "<b>setpasswd abc</b>"</li>
<ul><li>replace abc with the password you want to use</li></ul>
<li>type "<b>exit</b>"</li>
</ul>

Now power cycle the node and it should accept your new password.
</p>
<p>
If the device has a reset button you may instead press and hold the reset
button for 15 seconds which will cause the unit to behave as if it had
just been flashed with the AREDN&trade; firmware.
</p>
<p>
You would need to go through the node settings again just as if it was
the first time installing the AREDN&trade; firmware on the node.
</p>

<br><hr width=500><br>
<a name='tftp'><h3>Installing firmware with tftp</h3></a>
<p>
Your router is a brick.  It does not come up normally and you are not able to
log in by any method.  All is not lost, read on to see how to use the built in
failsafe method of installing firmware.  If this method does not work, you
will have to resort to a JTAG install.  Good luck with that.  See
www.openwrt.org for information on the JTAG method.
</p>
<p>
The CFE (Common Firmware Environment - the bootloader) has the ability to
receive a firmware image using tftp (the trivial file transfer protocol) and
write it to flash. When the nvram variable boot_wait is set to on, (as it will
be after the mesh firmware is installed at least once) there is a three second
window where it listens for tftp packets. If it hears them, it will load the
firmware into ram, write it to flash, then reboot. If the CFE detects some
problem with the firmware already on the flash (such as an interrupted flash
write) and is unable to boot, it should wait indefinitely for a tftp
transfer. At this point I'm not sure what the CFE behavior is when boot_wait
is set to off. I believe it still listens for tftp packets, but the window of
opportunity is one second or less.
</p>
<p>
Here is a Linux script you can use to send tftp attempts to 192.168.1.1 once
every second for an hour or until the upload succeeds. It sets the tftp trace
mode so that you can see every attempt and also see when the transfer has
happened and whether or not it succeeded.

<pre>
#!/bin/sh

if [ -z "$1" ]; then
  echo "usage: $0 &lt;image file&gt;"
  exit 1
fi

file=$1
cd `dirname $file`

tftp 192.168.1.1 << END
bin
rexmt 1
trace on
timeout 3600
put `basename $file` code.bin
END
</pre>
<p>
To reflash a device with this script, you will need to have your computer's
ethernet port connected to the LAN port on the router, with the IP address
statically set to 192.168.1.2, netmask 255.255.255.0. Run the script with the
image name as an argument. The .trx file will not work here, you need the .bin
file specific to your model of router.
</p>
<p>
Once per second you will see messages like this:
</p>
<pre>sent WRQ</pre>
<p>
Now power cycle the router. If the above messages continue and the router
continues to boot, it missed the window. This is not unusual. Power cycle the
router again and repeat the process until you see messages like this:
<pre>
sent DATA 
received ACK 
sent DATA 
received ACK 
</pre>
After that the flash write begins, then the router will reboot.
</p>
<p>
During this process one thing that may get in the way is network management
software that many modern operating systems use to automatically control your
ethernet port. It becomes a problem when power cycling the router causes the
network manager to enable and disable the ethernet port because it sees the
connection disappearing and reappearing.
</p>
<p>
One way around this is to disable the network manager and take manual control
of your network interfaces if you are able to do that. Otherwise it can be
avoided by using another ethernet switch which both your computer and the
router receiving the firmware are connected to. You should be able to use the
LAN switch on the back of another mesh node if a separate switch is not
available.
</p>
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