bigbluebutton-Github/bigbluebutton-tests/gns3
2023-04-03 16:30:59 -04:00
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.gitignore gns3 virtual testing network: add a .gitignore file to ignore the NPDC subdirectory and the SSL root certificate and key 2023-04-03 16:30:59 -04:00
bird.conf
gns3-bbb.py
NPDC.placeholder.sh gns3 virtual testing network: add a placeholder.sh script, since git submodules can't be used 2023-04-03 16:30:06 -04:00
README.md gns3 virtual testing network: add a placeholder.sh script, since git submodules can't be used 2023-04-03 16:30:06 -04:00
README.png
step-ca.service
testclient.sh
testcreds.sh
testserver.sh

GNS3-BBB

Scripts to build a virtual BigBlueButton network in a gns3 project (for testing purposes).

Prerequisites: a Ubuntu server with KVM (Kernel Virtual Machine) support and enough CPU and RAM to support the virtual machines in the virtual network

Note: gns3 is very picky about matching GUI client and server versions. I typically put dpkg holds on the gns3 packages, since otherwise an apt upgrade on my laptop requires both an apt upgrade on my gns3 server and restarting the gns3 server, which implies stopping and restarting all of the running VMs.

Note: gns3 uses qemu, which can not run concurrently with VirtualBox. If VirtualBox virtual machines are running. gns3 virtual machines will not start, and vice versa.

Note: Once the script has been used to build the virtual network (takes about an hour), the virtual network can be stopped and restarted without having to re-run the script.

Design

The script will build a gns3 project that looks like this:

network diagram

The network "highjacks" the 128.8.8.0/24 subnet, so it simulates public IP address space. You can set a different public subnet using the --public-subnet option to the script.

The DNS domain name is configured to match the bare metal hostname. If the bare metal machine is called osito, for example, the virtual machines will be given names like BigBlueButton.osito and focal-260.osito.

The BigBlueButton virtual machine (called master_gateway in the script) is named to match the gns3 project name, which is BigBlueButton by default. The project name (and the name of the master gateway) can be changed using the --project option.

The master gateway, in addition to providing DNS and DHCP service for the 128.8.8.0/24 subnet, also operates a STUN server that presents itself in DNS as stun.l.google.com, so that STUN operations, on both the BigBlueButton clients and servers, yield the 128.8.8.0/24 addresses as public addresses. BigBlueButton also operates an ACME CA signing service (so that certbot works), and mimics resolver1.opendns.com (used by bbb-install to check that the server can reach itself).

The master gateway also announces the 128.8.8.0/24 subnet to the bare metal machine using OSPF, and implements NAT, so that the bare metal machine can connect to the virtual servers.

The focal-260-NAT device announces itself into DHCP/DNS as focal-260.DOMAIN and forwards ports 80 and 443 (along with UDP ports) through to focal-260 itself. Clients can therefore connect to focal-260.DOMAIN, just as they would to a typical BBB server. The NAT device itself listens for ssh on port 2222. The --no-nat option can be specified to create a server without an associated NAT gateway.

Default operation of the script is to install a server whose name is passed into the script and is used both as the hostname of the server and as the release name to install. Obvious server names include focal-250, focal-25-dev, and focal-260. You can specify the -r/--repository option to use a repository other than ubuntu.bigbluebutton.org (just like the install script). The --install-script option allows an alternate install script to be used.

Some special names are defined. Requesting a device name starting with testclient creates a test client that connects to NAT4 (overlapping server address space), NAT5 (private address not overlapping server address space), and NAT6 (carrier grade NAT). Likewise, turn and natturn devices can also be created, just by requesting them by name.

Usage

  1. You'll need several tools from Brent Baccala's NPDC repository on github, so run this command to fetch it:

    ./NPDC.placeholder.sh
    
  2. Read, understand, and run the install-gns3.sh script in NPDC/GNS3

  3. Upload a current Ubuntu 20 cloud image to the gns3 server using NPDC's GNS3/upload-image.py:

    ./upload-image.py https://cloud-images.ubuntu.com/releases/focal/release/ubuntu-20.04-server-cloudimg-amd64.img

    The most uncommon Python3 package that this script uses is python3-requests-toolbelt. python3-clint is also recommended, to get a progress bar.

    If this step works, then you have REST API access to the GNS3 server.

  4. You should now be able to boot an Ubuntu instance with this NPDC/GNS3 script:

    ./ubuntu.py -r 20 -m 1024 --debug

    Double-click on the icon that appears in the GUI to access the instance's console. You should also be able to login using ssh ubuntu.

    The --debug option adds a login with username ubuntu and password ubuntu.

    Login and verify, in particular, that networking is working properly. You should have Internet access.

  5. Finally, build the BigBlueButton project in gns3 with ./gns3-bbb.py

  6. Install a server with ./gns3-bbb.py --wait-all focal-260

    The --wait-all option will cause the script to wait for BigBlueButton to install while you watch. Without this option, the script will pause to wait for the NAT device to boot before starting the BigBlueButton server, then terminate once the BigBlueButton server has begun its install sequence.

  7. You can run tests directly from the bare metal machine. The script created an SSL certificate in its own directory called bbb-dev-ca.crt which can be installed and trusted on your web browser.

  8. Add another server with ./gns3-bbb.py focal-250

  9. Remove a server and its associated NAT gateway and switch with ./gns3-bbb.py --delete focal-250

  10. ssh into the server devices directly.

  11. You can ssh into a server's NAT gateway with ssh -p 2222 focal-260.

  12. Since test servers come and go fairly frequently, I find the following stanza useful in my .ssh/config:

    Host BigBlueButton NAT? testclient* focal-*
      User ubuntu
      UserKnownHostsFile /dev/null
      StrictHostKeyChecking no
    

    This stops ssh from complaining about server host keys changing, which happens every time you delete and rebuild a server.

Installing test clients

  1. Build a GUI image using NPDC's GNS3/ubuntu.py:

    ./ubuntu.py -r 20 -s $((1024*1024)) -m 1024 --boot-script opendesktop.sh --gns3-appliance

    This step adds the GUI packages to the Ubuntu 20 cloud image and creates a new cloud image used for the test clients. It takes about half an hour.

  2. Upload the resulting GUI image to the gns3 server using NPDC's GNS3/upload-image.py

  3. Add a test client with ./gns3-bbb.py testclient

  4. You can access a testclient's GUI by double-clicking on its icon in the GNS3 GUI.

  5. You can ssh into a testclient by specifying its NAT gateway as a jump host (-J) option to ssh: ssh -J NAT4 testclient

Possible Test Environments

  1. UDP ports can be blocked, forcing use of TURN, like this (blocks all servers from bare metal clients):

    $ ssh BigBlueButton
    ubuntu@BigBlueButton:~$ sudo iptables -A FORWARD -p udp -j REJECT
    

    or like this (blocks one server from all clients):

    $ ssh -p 2222 focal-260
    ubuntu@focal-260-NAT:~$ sudo iptables -A FORWARD -p udp -j REJECT
    
  2. Install a proxy on BigBlueButton and force its use by blocking TCP traffic? (bbb-install issue #583)