* Link Quality Management experiment (built in)
* Protect LQM pages
* Omit "empty" mac addresses
* Integrate LQM v0.2
Includes proposed UI if this were built-in.
When LQM is enabled (advanced settings) the usual distance inputs are
replaced with "min snr' and "max distance" inputs which are the major
ones you might tweak, as well as a link to the LQM status page.
Other controls are now available (so protected) in advanced settings.
* Improve LQM updating
* Use running snr averages
* Merge app changes
* AREDN-ize the UI
* Improve status language
* Improved DtD detection
* Improve quality reporting
* Link Quality category
* Enable by default
* Better intergration
* Link => Neighbor
* Formatting
* Make sure initial page is populated without extra fetch
* Handle empty lqm.info
* Update with latest experiment algorithm changes
* Validate LQM settings before applying them
* Algorithm updates
* Improve quality reporting
* %% -> %
* Default max distance now 50 miles
* Get actual noise if radio will provide it
* low_snr => min_snr
* Dont print node description if we dont have one
* Remove properties duplicated from setup page
* Localize max distance. Miles in GB and US, Kilometers everywhere else.
* Ping link quality testing
* UDP 'ping' for quality check
* Change Active Settings title
* Expand ping test
* Improve messaging
* Add a ping penalty for neighbors which cannot be contacted in a timely manner.
* Remove user_blocks config option. No one needs to use this anymore.
* Localize distances on lqm page
* Improve status reporting
* First run emergency node setup.
When a node first runs LQM, if the default settings fail to connect to
a node we will now adjust them so that at least one node is viable.
* Restore blocking of mac addresses
* LQM now off by default
fixed#47
Without active clients the server will fail to start. This is okay, except this
error code causes the package installer to incorrectly report an install problem
requiring an unnecessary reboot.
* Migrate /etc/config/dmz-mode to /etc/dmz-mode
* Migrate dmz_mode into /etc/config/aredn
* Use cmd append
* Changes should be in /etc/config.mesh
* Add commit
* add uci migration script
* removed debug lines
* added newline to end
* include gridsquare values
* migrate lat/lon/gridsquare to uci format
* remove from sysupgrade kept files list
* Memory and cpu performance improvements
* Fix bandwidth reporting
* Discard large arrays once we're done with them
* Fixup whitespace
* Improve string constructions
* Use available mem
* Print the Remote Nodes as we go (can be big)
* Local variables
* Stop re-reading arp/mac files
* Reduce calls to system 'cat'
* Simply lat/lon read
* Only read route30 once
* Whitespace
* Make meshstatus limits configurable
* and => &&, or => ||
* gzip content if we can
fixes#155
Aliases in NAT mode allows the node admin to create alias names for hosts on the LAN and then use those for creating port forwarding rules. The aliases DO NOT effect the rest of the mesh network and are not propagated via OLSR.
NAT Mode aliases are only usable on the local LAN where the IP addresses are known and routable only on the subnet. Since the NAT hides these IP addresses or the node masquerades, other mesh nodes and devices by definition only know about the node’s hostname. Thus aliases on the LAN in NAT mode are not propagated by OLSR across the mesh. You _CANNOT_ use an alias name in a service listing.
You _will_ be able to set an alternate hostname for any host on the nodes' LAN however.
A host named `CBY45-DELLLAPTOP` can also be known as `wxc-shack-laptop`. It may make remembering which host is which a bit easier.
Since OLSR does not propagate the alias, the "Do Not Propagate" checkbox while in NAT Mode is hidden.
Allows for aliased hostnames on the mesh. One IP/Host can be assigned to multiple hostnames.
This is useful for many things including virtual hosts, virtual machines, virtual email addresses, etc.
The possibilities are actually _endless_.
Fixes#516
fixes#522
tested by: Matthew KB9OIV <Matthew.annen@gmail.com>
tested by: Chris K3ADA <sutehk.cs@gmail.com>
Resolves 2 issues with tunnel iptable rules. A rule needed to be
shifted down by 1 position in chain given upgrade to openwrt 19.07.
Reload of rules was not correctly retaining chain order and creating
duplicate entries, inadvertantly blocking intended traffic.
Installation:
Flash factory image through stock firmware WEB UI
or through TFTP:
To get to TFTP recovery just hold reset button while powering on for
around 4-5 seconds and release.
Rename factory image to recovery.bin
Stock TFTP server IP:192.168.0.100
Stock device TFTP address:192.168.0.254
Specifications:
* SoC: Qualcomm Atheros AR9344 (560 MHz)
* RAM: 64MB
* Storage: 8 MB
* Wireless: 2.4GHz N based built into SoC 2x2
* Ethernet: 2x 100/10 Mbps, integrated into SoC, 24V POE IN
Installation:
Flash factory image through stock firmware WEB UI
or through TFTP:
To get to TFTP recovery just hold reset button while powering on for
around 4-5 seconds and release.
Rename factory image to recovery.bin
Stock TFTP server IP:192.168.0.100
Stock device TFTP address:192.168.0.254
Tim Wilkinson