WISP-in-a-box Way Forward: Difference between revisions

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This document remains very much a draft, but is the evolving specification for the WISP-in-a-box project.
=== Overview ===
=== Overview ===
The entire WISP-in-a-box system consists of:


A central dashboard, running on the gateway server, from which:  
[[Image:Grafic_(Modified).png|thumb|400px]]
* the network can be monitored and all node can be configured  
 
* pre-paid vouches can be administered  
[[Image:Grafic-telco_(Modified).png|thumb|400px|Icon sources: http://villagetelco.org/, http://www.ubnt.com/products/ns2.php]]
* software running on the server (web & mail services, etc) can be administered  
 
* all functionality will work without upstream Internet access  
The entire WISP-in-a-box system consists of:
Mesh nodes which:  
 
* receive configuration updates from the central dashboard  
* A central dashboard, running on the gateway server, from which:  
* run a captive portal that interacts with clients and authenticates against the gateway server  
** the network can be monitored and all nodes can be configured  
* route themselves intelligently using BATMAN
** prepaid vouchers can be administered  
** software running on the server (web & mail services, upstream connection QoS software, etc) can be administered
** all functionality will work without upstream Internet access
* Mesh nodes which:
** receive configuration updates from the central dashboard
** run a captive portal that interacts with clients and authenticates against the gateway server
** run intra-mesh QoS software
** route themselves intelligently using BATMAN


=== Component Diagram ===
=== Component Diagram ===
[[Image:Grafic.png]]
 
The basic setup looks like the digram to the right. For the Village Telco project, many components are the same. There is some additional functionality that's desired, however, that can reside on top of the base WISP-in-a-box system.
 
This document is going to mainly focus on specifying the needs of the mesh & networking side of things, with an eye towards exactly how voice-related services will be integrated (but not an elaborate discussion of the technologies themselves).


=== Dashboard & Server ===
=== Dashboard & Server ===
==== Existing Projects ====
==== Existing Dashboard Projects ====
The OrangeMesh and Open-Mesh dashboards provide almost exactly the functionality we require. However, they have a number of problems:  
The OrangeMesh and Open-Mesh dashboards provide almost exactly the functionality we require. However, they have a number of problems:  


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We will start essentially from scratch on the dashboard, with the OrangeMesh dashboard as an example to work off of and borrow heavily from.
We will start essentially from scratch on the dashboard, with the OrangeMesh dashboard as an example to work off of and borrow heavily from.


The dashboard we will design will be highly modular, with a high-level menu in which the user can select a module to work with. A module might be an existing software component or a new one we've written. In the case of Network Status and Network Configuration, we can use the Orangemesh/Openmesh/ROBIN setup as a reference, and where appropriate can adapt their code to suit our needs. Essential modules include:
The dashboard we will design will be highly modular, with a high-level menu in which the user can select a module to work with. A module might be an existing software component or a new one we've written. In the case of Network Status and Network Configuration, we can use the Orangemesh-Openmesh/ROBIN setup as a reference, and where appropriate can adapt their code to suit our needs. Other tools to borrow from include Zeroshell for network QoS configuration. Essential modules include:


* Server Administration -- brings up Webmin  
* Server Administration -- brings up Webmin
** This will not only allow us to configure the server, but also execute arbitrary commands on all the mesh nodes using Webmin's cluster functionality. We will strip down a version of Webmin to run on the client nodes and use Webmin's cluster modules on the server to communicate with them. ''Comment: Running stripped down webmin on the nodes might neither be feasible nor needed - instead, we will copy the functionality of such a cluster control, howwever implement it using generic remote commands rather than webmin instances.''
* Vouchers -- brings up phpMyPrepaid, our data billing control system
* Vouchers -- brings up phpMyPrepaid, our data billing control system
** phpMyPrepaid additionally controls the CoovaChilli instances running on all routers, including the ability to restrict or permit free access to the rest of the mesh network
** phpMyPrepaid additionally controls the CoovaChilli instances running on all routers, including the ability to restrict or permit free access to the rest of the mesh network
** We need to also design in some way of dumping the user usage data that FreeRADIUS stores so that researchers can do usage studies on it. The local user needs to be able to easily dump this data and send it back to the CSIR for study.
* Network Status -- new custom dashboard component with following features:
* Network Status -- new custom dashboard component with following features:
** A semi-detailed list of all the nodes in the mesh, including:
*** the node's IP and MAC addresses
*** the node's current status (simple up or down)
*** when they were last heard from (when an update from that node was last received)
*** how many hops and/or what route the node currently has to the gateway
** Basic network usage statistics, data taken from RADIUS:
*** Total bandwidth going out of the gateway in the last X amount of time
*** Heaviest users of the network to monitor abuse (further information on individual users is available already in phpMyPrepaid)
** Ability to test network throughput, either through:
*** Simple interface to run iperf between any two nodes, or:
*** Visual display of metrics & signal strengths of every link, data reported from clients' BATMAN daemons and network tools


* A semi-detailed list of all the nodes in the mesh, including:
* Mesh Network Configuration -- new custom dashboard component with following features (note this is designed to be minimal for ease of use):
** the node's IP and MAC addresses
** Change SSID of mesh network
** the node's current status (simple up or down)
** Change channel of mesh network
** when they were last heard from (when an update from that node was last received)
** Other features? Open to discussion.
* Basic network usage statistics, data taken from RADIUS:
** Note - It might be necessary to have multiple classes of mesh devices on the network, to accommodate a combination of different hardwares, different channels, etc.
** Total bandwidth going out of the gateway in the last X amount of time
* QoS Network Configuration – new custom dashboard component for adjusting QoS settings both:
** Heaviest users of the network to monitor abuse (further information on individual users is available already in phpMyPrepaid)
** On the server, for outgoing traffic going to the upstream connection
* Ability to test network throughput, either through:
** On the various nodes in the mesh, for intra-mesh network bandwidth management.
** Simple interface to run iperf between any two nodes, or:
* AP-only node configuration – new custom dashboard component that configures node that are only AP's, not part of the mesh. Configures:
** Visual display of metrics & signal strengths of every link, data reported from clients' BATMAN daemons and network tools
** SSID of AP
 
** Channel of AP
* Network Configuration -- new custom dashboard component with following features (note this is designed to be minimal for ease of use):
** Any kind of WPA authentication a user might want to run on the AP
** Change SSID of mesh backhaul
** Change channel of mesh backhaul
** “Advanced” features:
*** push command to all nodes via SSH
** Other features? Open to discussion. Potentially:
*** Change basic firewall features of each node (particularly, can clients access each others' computers when connected to the same CoovaChilli instance)


Possible other modules include Asterisk and A2billing pages.
Possible other voice-related modules include Asterisk and A2billing modules or pages.


The dashboard will send out all configuration updates using a standardized API; any mesh node in the network will have to run a client implementing this API that receives configuration messages from the dashboard and makes the necessary changes to files on its system. The API will be just as modular as the dashboard, so if a user wants to only implement certain features (say, add billing to an existing network) she would only need to implement a client for the platform her nodes are running (or, ideally, there will already be a client for that platform). Through the dashboard the user could then disable the unwanted modules. The dashboard will only send out updates for the components that are enabled, and the client will only modify configuration files for the components it receives.  
The dashboard will send out all configuration updates using a standardized API; any mesh node in the network will have to run a client implementing this API that receives configuration messages from the dashboard and makes the necessary changes to files on its system. The API will be just as modular as the dashboard, so if a user wants to only implement certain features (say, add billing to an existing network) she would only need to implement a client for the platform her nodes are running (or, ideally, there will already be a client for that platform). Through the dashboard the user could then disable the unwanted modules. The dashboard will only send out updates for the components that are enabled, and the client will only modify configuration files for the components it receives.  


All of the components of the larger dashboard will be skinned in a unified CSS style.  
All of the components of the larger dashboard will be skinned in a unified CSS style, with the potential for branding built in.
 
<nowiki>[basic mockup of web interface]</nowiki>


=== Mesh Nodes ===
=== Mesh Nodes ===
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* Batman for routing
* Batman for routing
* CoovaChilli as a local captive portal.
* CoovaChilli as a local captive portal
* A client daemon modeled on the ROBIN scripts that receives updates from the dashboard and sends any necessary information back to the dashboard. The client daemon will have to be co-developed with the dashboard.  
* Intra-mesh QoS software, configurable from the dashboard. Uncertain as to what tools exactly to use here, however borrowing from Zeroshell it may be possible to simply use netfilter/iptables & l7-filter. Using an existing tool here would be very nice, as this is a complex task.
* In addition to configuration through the dashboard, we will include a minimal web interface for configuring each individual node. This interface will run on the nodes, and can be a stripped-down version of X-WRT's webif^2 or FFLuCI.  
* A client daemon modeled on the ROBIN scripts that receives updates from the dashboard and sends any necessary information back to the dashboard. The client daemon will have to be co-developed with the dashboard.
* Stripped-down Webmin server component so we can run remote Webmin commands on the node through the server's Webmin installation.
* In addition to configuration through the dashboard, we will include a minimal web interface for configuring each individual node. This interface will run on the nodes, and can be a stripped-down version of X-WRT's webif^2 or FFLuCI. It would be useful if the interface could be designed such that it would run on any device regardless of that device's platform. This may be easy to do with existing abstractions in OpenWRT, but an alternative method would be for this interface to change the configuration of the local node via the update API, which is guaranteed to be fully abstracted, and let the update client for that device take care of making the actual changes.
 
=== AP-only Nodes ===
The mesh nodes will use their radios exclusively for the mesh network ('backhaul'). Clients can be attached directly to the Ethernet ports of these nodes, however it may be useful to have wireless client access as well. In this case, a second device can be attached to the mesh node to act as an access point. These devices can also be Linksys WRTs or similar, running OpenWRT with:
 
* CoovaChilli
* Dashboard Client with:
** AP-only node configuration module
** CoovaChilli configuration module


=== Task Breakdown ===
=== Task Breakdown ===
Once the specification is agreed upon work can begin. At that time further task breakdowns may be useful, but at a high level the expectation currently is:
Once the specification is agreed upon work can begin. At that time further task breakdowns may be useful, but at a high level the expectation currently is as follows (refer to above for details on what individual software piece entail):


# Dashboard & first client development: Meraka
# Dashboard & first client development: Meraka
# Minimal interface development: Inveneo
## Further examination of ROBIN to see which parts of it can be modified for our purposes
# Potential further client development for other systems (such as those used in Village Telco): Inveneo
## Adaptation of Webmin's cluster tools for use on the mesh
## Determine appropriate tools for QoS [starting point: Zeroshell]
## Update API design & specification
## Dashboard framework design and implementation
## Mesh update client framework design and implementation
## Dashboard module implementation
### Network Monitoring
### Network Configuration – basics (Channel, SSID, etc)
### Network Configuration – QoS settings
### Network Configuration – AP-only settings
### Adapt phpMyPrepaid's CoovaChilli configuration to send out updates via standardized API rather than only changing local configuration file.
## Co-development with dashboard modules: mesh client update modules for each dashboard component, designed initially for the WRT but as portable as possible (for most modules portability should be trivial, as the software on the node the update client is configuring will be the same).
## CSS skinning for all dashboard components (including pre-existing ones such as Webmin and phpMyPrepaid).
 
# Minimal interface development for starter devices (at least the WRT, Mesh Potato, and Ubiquity nodes): Inveneo
# Porting of mesh client to Ubiquity and Mesh Potato (most modules should be identical, but basic network configuration settings may be device-specific): Inveneo
 
[[Category:WISP in a box]]

Latest revision as of 06:45, 9 September 2008

This document remains very much a draft, but is the evolving specification for the WISP-in-a-box project.

Overview

Icon sources: http://villagetelco.org/, http://www.ubnt.com/products/ns2.php

The entire WISP-in-a-box system consists of:

  • A central dashboard, running on the gateway server, from which:
    • the network can be monitored and all nodes can be configured
    • prepaid vouchers can be administered
    • software running on the server (web & mail services, upstream connection QoS software, etc) can be administered
    • all functionality will work without upstream Internet access
  • Mesh nodes which:
    • receive configuration updates from the central dashboard
    • run a captive portal that interacts with clients and authenticates against the gateway server
    • run intra-mesh QoS software
    • route themselves intelligently using BATMAN

Component Diagram

The basic setup looks like the digram to the right. For the Village Telco project, many components are the same. There is some additional functionality that's desired, however, that can reside on top of the base WISP-in-a-box system.

This document is going to mainly focus on specifying the needs of the mesh & networking side of things, with an eye towards exactly how voice-related services will be integrated (but not an elaborate discussion of the technologies themselves).

Dashboard & Server

Existing Dashboard Projects

The OrangeMesh and Open-Mesh dashboards provide almost exactly the functionality we require. However, they have a number of problems:

  • Both dashboards require the nodes to be running ROBIN firmware to receive configuration updates. ROBIN, as it is now, only runs on Atheros-based devices, not Broadcom devices (like the Linksys WRT). Some semi-serious hacking will be required to add support for Broadcom devices into ROBIN, since right now it assumes the use of the Atheros-only MadWifi drivers.
  • With an eye towards localization & modularity, the OrangeMesh sources aren't quite what we'd like them to be.

Because of these limitations, we may not want to use the OrangeMesh/Open-Mesh dashboard. We still want to imitate the same basic style of system, however, while adding some functionality to meet the additional needs of our dashboard (e.g. ability to administer vouchers and server services, things that the OrangeMesh/Open-Mesh dashboards don't cover).

Our Approach

We will start essentially from scratch on the dashboard, with the OrangeMesh dashboard as an example to work off of and borrow heavily from.

The dashboard we will design will be highly modular, with a high-level menu in which the user can select a module to work with. A module might be an existing software component or a new one we've written. In the case of Network Status and Network Configuration, we can use the Orangemesh-Openmesh/ROBIN setup as a reference, and where appropriate can adapt their code to suit our needs. Other tools to borrow from include Zeroshell for network QoS configuration. Essential modules include:

  • Server Administration -- brings up Webmin
    • This will not only allow us to configure the server, but also execute arbitrary commands on all the mesh nodes using Webmin's cluster functionality. We will strip down a version of Webmin to run on the client nodes and use Webmin's cluster modules on the server to communicate with them. Comment: Running stripped down webmin on the nodes might neither be feasible nor needed - instead, we will copy the functionality of such a cluster control, howwever implement it using generic remote commands rather than webmin instances.
  • Vouchers -- brings up phpMyPrepaid, our data billing control system
    • phpMyPrepaid additionally controls the CoovaChilli instances running on all routers, including the ability to restrict or permit free access to the rest of the mesh network
    • We need to also design in some way of dumping the user usage data that FreeRADIUS stores so that researchers can do usage studies on it. The local user needs to be able to easily dump this data and send it back to the CSIR for study.
  • Network Status -- new custom dashboard component with following features:
    • A semi-detailed list of all the nodes in the mesh, including:
      • the node's IP and MAC addresses
      • the node's current status (simple up or down)
      • when they were last heard from (when an update from that node was last received)
      • how many hops and/or what route the node currently has to the gateway
    • Basic network usage statistics, data taken from RADIUS:
      • Total bandwidth going out of the gateway in the last X amount of time
      • Heaviest users of the network to monitor abuse (further information on individual users is available already in phpMyPrepaid)
    • Ability to test network throughput, either through:
      • Simple interface to run iperf between any two nodes, or:
      • Visual display of metrics & signal strengths of every link, data reported from clients' BATMAN daemons and network tools
  • Mesh Network Configuration -- new custom dashboard component with following features (note this is designed to be minimal for ease of use):
    • Change SSID of mesh network
    • Change channel of mesh network
    • Other features? Open to discussion.
    • Note - It might be necessary to have multiple classes of mesh devices on the network, to accommodate a combination of different hardwares, different channels, etc.
  • QoS Network Configuration – new custom dashboard component for adjusting QoS settings both:
    • On the server, for outgoing traffic going to the upstream connection
    • On the various nodes in the mesh, for intra-mesh network bandwidth management.
  • AP-only node configuration – new custom dashboard component that configures node that are only AP's, not part of the mesh. Configures:
    • SSID of AP
    • Channel of AP
    • Any kind of WPA authentication a user might want to run on the AP

Possible other voice-related modules include Asterisk and A2billing modules or pages.

The dashboard will send out all configuration updates using a standardized API; any mesh node in the network will have to run a client implementing this API that receives configuration messages from the dashboard and makes the necessary changes to files on its system. The API will be just as modular as the dashboard, so if a user wants to only implement certain features (say, add billing to an existing network) she would only need to implement a client for the platform her nodes are running (or, ideally, there will already be a client for that platform). Through the dashboard the user could then disable the unwanted modules. The dashboard will only send out updates for the components that are enabled, and the client will only modify configuration files for the components it receives.

All of the components of the larger dashboard will be skinned in a unified CSS style, with the potential for branding built in.

Mesh Nodes

The mesh nodes themselves will run OpenWRT. Node software includes:

  • Batman for routing
  • CoovaChilli as a local captive portal
  • Intra-mesh QoS software, configurable from the dashboard. Uncertain as to what tools exactly to use here, however borrowing from Zeroshell it may be possible to simply use netfilter/iptables & l7-filter. Using an existing tool here would be very nice, as this is a complex task.
  • A client daemon modeled on the ROBIN scripts that receives updates from the dashboard and sends any necessary information back to the dashboard. The client daemon will have to be co-developed with the dashboard.
  • Stripped-down Webmin server component so we can run remote Webmin commands on the node through the server's Webmin installation.
  • In addition to configuration through the dashboard, we will include a minimal web interface for configuring each individual node. This interface will run on the nodes, and can be a stripped-down version of X-WRT's webif^2 or FFLuCI. It would be useful if the interface could be designed such that it would run on any device regardless of that device's platform. This may be easy to do with existing abstractions in OpenWRT, but an alternative method would be for this interface to change the configuration of the local node via the update API, which is guaranteed to be fully abstracted, and let the update client for that device take care of making the actual changes.

AP-only Nodes

The mesh nodes will use their radios exclusively for the mesh network ('backhaul'). Clients can be attached directly to the Ethernet ports of these nodes, however it may be useful to have wireless client access as well. In this case, a second device can be attached to the mesh node to act as an access point. These devices can also be Linksys WRTs or similar, running OpenWRT with:

  • CoovaChilli
  • Dashboard Client with:
    • AP-only node configuration module
    • CoovaChilli configuration module

Task Breakdown

Once the specification is agreed upon work can begin. At that time further task breakdowns may be useful, but at a high level the expectation currently is as follows (refer to above for details on what individual software piece entail):

  1. Dashboard & first client development: Meraka
    1. Further examination of ROBIN to see which parts of it can be modified for our purposes
    2. Adaptation of Webmin's cluster tools for use on the mesh
    3. Determine appropriate tools for QoS [starting point: Zeroshell]
    4. Update API design & specification
    5. Dashboard framework design and implementation
    6. Mesh update client framework design and implementation
    7. Dashboard module implementation
      1. Network Monitoring
      2. Network Configuration – basics (Channel, SSID, etc)
      3. Network Configuration – QoS settings
      4. Network Configuration – AP-only settings
      5. Adapt phpMyPrepaid's CoovaChilli configuration to send out updates via standardized API rather than only changing local configuration file.
    8. Co-development with dashboard modules: mesh client update modules for each dashboard component, designed initially for the WRT but as portable as possible (for most modules portability should be trivial, as the software on the node the update client is configuring will be the same).
    9. CSS skinning for all dashboard components (including pre-existing ones such as Webmin and phpMyPrepaid).
  1. Minimal interface development for starter devices (at least the WRT, Mesh Potato, and Ubiquity nodes): Inveneo
  2. Porting of mesh client to Ubiquity and Mesh Potato (most modules should be identical, but basic network configuration settings may be device-specific): Inveneo