A command called burn and foo for the cloudmesh shell
Project description
Cloudmesh Pi Burner for SD Cards
WARNING: This program is designed for a Raspberry Pi and must not be executed on your laptop or desktop. An earlier version that could be run on Linux, macOS, and Windows 10 is no longer supported. If you want to help us porting them on any of these OSes, please contact laszewski@gmail.com
- Cloudmesh Pi Burner for SD Cards
cms burn
cms burn
is a program to burn many SD cards for the preparation of
building clusters with Raspberry Pi's. It allows users to create
readily bootable SD cards that have the network configured, contain a
public ssh key from your machine that you used to configure the
cards. Thus not much additional setup is needed for a cluster. Another
unique feature is that you can burn multiple cards in a row, each with
their individual setup such as hostnames and ipadresses.
Nomenclature
-
Commands proceeded with
pi@red:$
are to be executed on the Rasperry Pi with the name red. -
Commands with
(ENV3) pi@red:$
are to be executed in a virtula ENV using Python 3 on the Raspberry Pi with the name red
Quickstart for Restricted WiFi Access
To provide you with a glimpse on what you can do with cms burn, we have provided this quickstart guide that will create one master PI and several workers.
This setup is intended for those who have restricted access to their home network (ie. cannot access router controls). For example, those on campus WiFis or regulated apartment WiFis.
The Figure 1 describes our network configuration. We have 5 Raspberry Pi 4s: 1 master and 4 workers. We have WiFi access, but we do not necessarily have access to the router's controls.
We also have a network switch, where the master and workers can communicate locally, but we will also configure the master to provide internet access to devices on the network switch via a "network bridge".
Figure 1: Pi Cluster setup with bridge network
Requirements
For the quickstart we have the following requirements:
-
SD Cards and Raspberry Pis
-
Master Pi: You will need at least 1 Raspberry Pi SD Card burned using Raspberry Pi imager. You can use your normal operating system to burn such a card including Windows, macOS, or Linux. Setting up a Raspberry Pi in this manner should be relatively straightforward as it is nicely documented online (For example, how to setup SSH). All you will need for this guide is an internet connection for your Pi. It might also be of use to change the hostname of this Pi.
-
You will need an SD card writer (USB tends to work best) to burn new cards We recommend that you invest in a USB3 SDCard writer as they are significantly faster and you can resuse them on PI'4s
Master Pi
Step 1. Installing Cloudmesh on the Master Pi
The simple curl command below will generate an ssh-key, update your system, and install cloudmesh.
pi@masterpi:~ $ curl -Ls http://cloudmesh.github.io/get/pi | sh
This will take a moment...
Step 2. Activate Python Virtual Environment
If you have not already, enter the Python virtual environment provided by the installation script.
pi@masterpi:~ $ source ~/ENV3/bin/activate
Step 3. Download the latest Raspberry Pi Lite OS
The following command will download the latest images for Raspberry Lite OS.
(ENV3) pi@masterpi:~ $ cms burn image get latest
We can verify our image's downloaded with the following.
(ENV3) pi@masterpi:~ $ cms burn image ls
Step 4. Setup SD Card Writer
Run the following command to setup your SD Card Writer with cms burn. It will provide a sequence of instructions to follow.
(ENV3) pi@masterpi:~ $ cms burn detect
Make sure the USB Reader(s) is removed ...
Is the reader(s) removed? y/n
Now plug in the Reader(s) ...
Is the reader(s) plugged in? y/n
# ----------------------------------------------------------------------
# Detected Card Writers
# ----------------------------------------------------------------------
Bus 001 Device 003: ID 1908:0226 GEMBIRD
Now insert one of the worker (orange) SD cards into your writer.
Running the following command will provide us information on our SD card's location on the system.
(ENV3) pi@masterpi:~ $ cms burn info
...
# ----------------------------------------------------------------------
# SD Cards Found
# ----------------------------------------------------------------------
+----------+----------------------+----------+-----------+-------+------------------+---------+-----------+-----------+
| Path | Info | Readable | Formatted | Empty | Size | Aaccess | Removable | Writeable |
+----------+----------------------+----------+-----------+-------+------------------+---------+-----------+-----------+
| /dev/sda | Generic Mass-Storage | True | True | False | 64.1 GB/59.7 GiB | True | True | |
+----------+----------------------+----------+-----------+-------+------------------+---------+-----------+-----------+
cms burn info
has other useful information, but for the purposes of this guide we omit it.
We can see from the information displayed that our SD card's path is
/dev/sda
. Of course, this may vary. Let us record this path for cms burn
access.
(ENV3) pi@masterpi:~ $ export DEV=/dev/sda
cms burn
is now properly configured and ready to begin burning
cards. See the following sections on burning that are in accordance
with your setup.
Single Card Burning
Step 0. Ensure the SD card is inserted.
We can run cms burn info
again as we did above to verify our
SD card is connected.
Step 1. Burning the SD Card
Choose a hostname for your card. We will use red001
.
(ENV3) pi@masterpi:~ $ cms burn create --hostname=red001
Wait for the card to burn. Once the process is complete, it is safe to remove the SD card.
Burning Multiple SD Cards with a Single Burner
Step 0. Ensure the first SD card is inserted into the burner.
We can run cms burn info
again as we did above to verify our SD
card is connected.
Step 2. Burning the Cards
cms burn
supports logical incremenation of numbers/characters.
For example, red00[1-2]
is interpreted by cms burn as [red001, red002]
.
Similarly, red[a-c]
is interpreted by cms burn as [reda, redb, redc]
.
We can burn 2 SD cards as follows:
(ENV3) pi@masterpi:~ $ cms burn create --hostname=red00[1-2]
The user will be prompted to swap the SD cards after each card burn if there are still remaining cards to burn.
One if the important aspects is how to set up networking. We have three options
OPTION 1.The framework we use to set up default networking will use a DHCP
server. This is configured at a later step with the command cms bridge
that manages all ip addresses on the master. This is the
easiest way to set up networking. There are two other options
OPTION 2: Setup static IPs via the bridge command. cms bridge
allows
users to assign static IPs to nodes in their cluster. See
cms bridge documentation
for more information.
OPTION 3: If the user wishes to strictly assign a static IP at the
time of burning, they may use the --ipaddr=IP
as noted in the
cms burn manual. The
behavior of this parameter is very similar to the hostnames
parameter. For example, 10.1.1.[1-3]
evaluates to
[10.1.1.1, 10.1.1.2, 10.1.1.3]
Which option you use may depend on your persoanl preferences or your network requirements. If in doubt, start with OPTION 1.
Connecting Pis to the Internet via Bridge (OPTION 1)
Figure 1 depicts how the network is set up with the help of the bridge command.
Figure 1: Networking Bridge
Step 0. Recap and Setup
At this point we assume that you have used cms burn
to create all SD cards for the
Pi's.
We are also continuing to use masterpi
(which is where we burn the worker SD cards).
We will now use cms bridge
to connect the worker Pis to the
internet. Let us again reference the diagram of our network setup. You
should now begin connecting your Pis together via network
switch. Ensure that masterpi
is also connected into the network
switch.
Step 1. Verify Local Connection to Workers
Ensure your workers are booted and that your network switch is turned on. Once the Pis are done booting up, we will verify our local connections to them on the network switch via SSH.
Note: To figure out when a Pi is done completing its initial bootup process, the green light on the Pi will flash periodically until the bootup/setup is complete. Once there is just a red light for a period, the Pi is ready.
Once your setup is configured in this manner, Pi Master should be able to ssh
into each node via its hostname. For example, if one of our workers is
red001
, we may ssh to them as follows:
(ENV3) pi@masterpi:~ $ ssh pi@red001.local
If this is successful, you are ready to connect your workers to the internet.
Step 2. Configuring our Bridge
At this point, the master pi can talk to the workers via the network switch. However, these burned Pis do not have internet access. It can be very tedious to connect each Pi individually to our WiFi. So we provide a command to "bridge" internet access between the burner Pi and the burned Pis. This program should already be installed by the cloudmesh installation script.
We can easily create our bridge as follows.
(ENV3) pi@masterpi:~ $ cms bridge create --interface='wlan0'
This will take a moment while the dependencies are installed...
Note the
--interface
option indicates the interface used by the master pi to access the internet. In this case, since we are using WiFi, it is most likelywlan0
. Other options such aseth0
andeth1
exist for ethernet connections.
Once the installations are complete, let us restart the bridge to reflect these changes.
(ENV3) pi@masterpi:~ $ cms bridge restart --background
Note the use of
--background
in this case is recommended as the process may potentially break a user's SSH pipeline (due to WiFi). If this is the case, the program will continue in the background without error and the user will be able to SSH shortly after.
Once the process is complete, we can use the following command to list our connected devices.
(ENV3) pi@masterpi:~ $ cms bridge info
bridge info
# ----------------------------------------------------------------------
#
# IP range: 10.1.1.2 - 10.1.1.122
# Manager IP: 10.1.1.1
#
# # LEASE HISTORY #
# 2021-01-21 06:04:08 dc:a6:32:e8:01:a3 10.1.1.84 red001 01:dc:a6:32:e8:01:a3
# 2021-01-21 06:04:08 dc:a6:32:e7:f0:fb 10.1.1.12 red003 01:dc:a6:32:e7:f0:fb
# 2021-01-21 06:04:08 dc:a6:32:e8:02:cd 10.1.1.22 red004 01:dc:a6:32:e8:02:cd
# 2021-01-21 06:04:08 dc:a6:32:e8:06:21 10.1.1.39 red002 01:dc:a6:32:e8:06:21
# ----------------------------------------------------------------------
At this point, our workers should have internet access. Let us SSH into one and ping google.com to verify.
(ENV3) pi@masterpi:~ $ ssh red001
pi@red001:~ $ ping google.com
PING google.com (142.250.64.238) 56(84) bytes of data.
64 bytes from mia07s57-in-f14.1e100.net (142.250.64.238): icmp_seq=1 ttl=106 time=48.2 ms
64 bytes from mia07s57-in-f14.1e100.net (142.250.64.238): icmp_seq=2 ttl=106 time=48.3 ms
64 bytes from mia07s57-in-f14.1e100.net (142.250.64.238): icmp_seq=3 ttl=106 time=47.9 ms
64 bytes from mia07s57-in-f14.1e100.net (142.250.64.238): icmp_seq=4 ttl=106 time=47.10 ms
64 bytes from mia07s57-in-f14.1e100.net (142.250.64.238): icmp_seq=5 ttl=106 time=48.5 ms
^C
--- google.com ping statistics ---
5 packets transmitted, 5 received, 0% packet loss, time 9ms
rtt min/avg/max/mdev = 47.924/48.169/48.511/0.291 ms
Note how we are able to omit the pi user and .local extension
The cluster is now complete.
Quickstart Guide for Mesh Networks
This section will be completed.
In case you have a Mesh Network, the setup can typically be even more simplifies as we can attach the unmanaged router directly to a Mesh node via a network cable. IN that case the node is directly connected to the internet and uses the DHCP feature from the Mesh router (see Figure 2).
Figure 2: Networking with Mesh network
You will not need the bridge command to setup the network.
Set up of the SSH keys and SSH tunnel
One important aspect of the cluster is to setup authentication with ssh, so we can easily login from the Laptop to each of the PI workers and the PI manager. Furthermore, we like to be able to login from the PI Master to each of the workers. In addition, we like to be able to login between the workers.
To simplify the setup of this we have developed a command
cms host
with the options. To generate on multiple machines
on the network keys, to gather them and to redistribute or
scatter them so that we can easily authenticate as discussed
previously.
One important part of this is that the key on the Laptop must not be password less. This is also valid for any machine that is directly added to the network such as in the Mesh notwork.
To avoid password less keys we recommend you to use ssh-add
or ssh-keychain
.
More infor and a concrete example will be documented here shortly.
The manual page for cms host
is provided in the Manual
Page section.
Manual Pages
Manual Page for the burn
command
Note to execute the command on the commandline you have to type in
cms burn
and not jsut burn
.
burn network list [--ip=IP] [--used]
burn network
burn info [DEVICE]
burn detect
burn image versions [--refresh]
burn image ls
burn image delete [IMAGE]
burn image get [URL]
burn create [--image=IMAGE]
[--device=DEVICE]
[--hostname=HOSTNAME]
[--ipaddr=IP]
[--sshkey=KEY]
[--blocksize=BLOCKSIZE]
[--dryrun]
[--passwd=PASSWD]
[--ssid=SSID]
[--wifipassword=PSK]
[--format]
burn burn [IMAGE] [DEVICE] --[dryrun]
burn mount [DEVICE] [MOUNTPOINT]
burn set host [HOSTNAME] [MOUNTPOINT]
burn set ip [IP] [MOUNTPOINT]
burn set key [KEY] [MOUNTPOINT]
burn enable ssh [MOUNTPOINT]
burn unmount [DEVICE]
burn wifi SSID [PASSWD] [-ni]
Options:
-h --help Show this screen.
--version Show version.
--image=IMAGE The image filename,
e.g. 2019-09-26-raspbian-buster.img
--device=DEVICE The device, e.g. /dev/mmcblk0
--hostname=HOSTNAME The hostname
--ipaddr=IP The IP address
--key=KEY The name of the SSH key file
--blocksize=BLOCKSIZE The blocksise to burn [default: 4M]
Files:
This is not fully thought through and needs to be documented
~/.cloudmesh/images
Location where the images will be stored for reuse
Description:
cms burn create --passwd=PASSWD
if the passwd flag is added the default password is
queried from the commandline and added to all SDCards
if the flag is ommitted login via the password is disabled
and only login via the sshkey is allowed
Network
cms burn network list
Lists the ip addresses that are on the same network
+------------+---------------+----------+-----------+
| Name | IP | Status | Latency |
|------------+---------------+----------+-----------|
| Router | 192.168.1.1 | up | 0.0092s |
| iPhone | 192.168.1.4 | up | 0.061s |
| red01 | 192.168.1.46 | up | 0.0077s |
| laptop | 192.168.1.78 | up | 0.058s |
| unkown | 192.168.1.126 | up | 0.14s |
| red03 | 192.168.1.158 | up | 0.0037s |
| red02 | 192.168.1.199 | up | 0.0046s |
| red | 192.168.1.249 | up | 0.00021s |
+------------+----------------+----------+-----------+
cms burn network list [--used]
Lists the used ip addresses as a comma separated parameter
list
192.168.50.1,192.168.50.4,...
cms burn network address
Lists the own network address
+---------+----------------+----------------+
| Label | Local | Broadcast |
|---------+----------------+----------------|
| wlan0 | 192.168.1.12 | 192.168.1.255 |
+---------+----------------+----------------+
Examples: ( \ is not shown)
> cms burn create --image=2019-09-26-raspbian-buster-lite
> --device=/dev/mmcblk0
> --hostname=red[5-7]
> --ipaddr=192.168.1.[5-7]
> --sshkey=id_rsa
> cms burn image get latest
> cms burn image get https://downloads.raspberrypi.org/
> raspbian_lite/images/
> raspbian_lite-2018-10-11/2018-10-09-raspbian-stretch-lite.zip
> cms burn image delete 2019-09-26-raspbian-buster-lite
Manual Page for the bridge
command
Note to execute the command on the commandline you have to type in
cms bridge
and not jsut bridge
.
bridge create [--interface=INTERFACE] [--ip=IPADDRESS] [--range=IPRANGE] [--purge]
bridge set HOSTS ADDRESSES
bridge restart [--nohup] [--background]
bridge status
bridge test HOSTS [--rate=RATE]
bridge list NAMES
bridge check NAMES [--configuration] [--connection]
bridge info
Arguments:
HOSTS Hostnames of connected devices.
Ex. red002
Ex. red[002-003]
ADDRESSES IP addresses to assign to HOSTS. Addresses
should be in the network range configured.
Ex. 10.1.1.2
Ex. 10.1.1.[2-3]
NAMES A parameterized list of hosts. The first hostname
in the list is the master through which the traffic
is routed. Example:
blue,blue[002-003]
Options:
--interface=INTERFACE The interface name [default: eth1]
You can also specify wlan0 if you wnat
to bridge through WIFI on the master
eth0 requires a USB to WIFI adapter
--ip=IPADDRESS The ip address [default: 10.1.1.1] to
assign the master on the
interface. Ex. 10.1.1.1
--range=IPRANGE The inclusive range of IPs that can be
assigned to connecting devices. Value
should be a comma separated tuple of the
two range bounds. Should not include the
ip of the master Ex. 10.1.1.2-10.1.1.20
[default: 10.1.1.2-10.1.1.122]
--workers=WORKERS The parametrized hostnames of workers
attatched to the bridge.
Ex. red002
Ex. red[002-003]
--purge Include option if a full reinstallation of
dnsmasq is desired
--background Runs the restart command in the background.
stdout to bridge_restart.log
--nohup Restarts only the dnsmasq portion of the
bridge. This is done to surely prevent
SIGHUP if using ssh.
--rate=RATE The rate in seconds for repeating the test
If ommitted its done just once.
Description:
Command used to set up a bride so that all nodes route the traffic
trough the master PI.
bridge create [--interface=INTERFACE] [--ip=IPADDRESS] [--range=IPRANGE]
creates the bridge on the current device
The create command does not restart the network.
bridge set HOSTS ADDRESSES
the set command assigns the given static
ip addresses to the given hostnames.
bridge status
Returns the status of the bridge and its linked services.
bridge restart [--nohup]
restarts the bridge on the master without rebooting.
bridge test NAMES
A test to see if the bridges are configured correctly and one
hase internet access on teh specified hosts.
bridge list NAMES
Lists information about the bridges (may not be needed)
bridge check NAMES [--config] [--connection]
provides information about the network configuration
and netwokrk access. Thisis not a comprehensive speedtest
for which we use test.
bridge info
prints relevant information about the configured bridge
Design Changes:
We still may need the master to be part of other commands in case
for example the check is different for master and worker
Manual Page for the host
command
Note to execute the command on the commandline you have to type in
cms host
and not jsut host
.
host scp NAMES SOURCE DESTINATION [--dryrun]
host ssh NAMES COMMAND [--dryrun] [--output=FORMAT]
host config NAMES [IPS] [--user=USER] [--key=PUBLIC]
host check NAMES [--user=USER] [--key=PUBLIC]
host key create NAMES [--user=USER] [--dryrun] [--output=FORMAT]
host key list NAMES [--output=FORMAT]
host key gather NAMES [--authorized_keys] [FILE]
host key scatter NAMES FILE
This command does some useful things.
Arguments:
FILE a file name
Options:
--dryrun shows what would be done but does not execute
--output=FORMAT the format of the output
Description:
host scp NAMES SOURCE DESTINATION
TBD
host ssh NAMES COMMAND
runs the command on all specified hosts
Example:
ssh red[01-10] "uname -a"
host key create NAMES
create a ~/.ssh/id_rsa and id_rsa.pub on all hosts specified
Example:
ssh key create "red[01-10]"
host key list NAMES
list all id_rsa.pub keys from all hosts specifed
Example:
ssh key list red[01-10]
host key gather HOSTS FILE
gathers all keys from file FILE including the one from localhost.
ssh key gather "red[01-10]" keys.txt
host key scatter HOSTS FILE
copies all keys from file FILE to authorized_keys on all hosts,
but also makes sure that the users ~/.ssh/id_rsa.pub key is in
the file.
1) adds ~/.id_rsa.pub to the FILE only if its not already in it
2) removes all duplicated keys
Example:
ssh key scatter "red[01-10]"
host key scp NAMES FILE
copies all keys from file FILE to authorized_keys on all hosts
but also makes sure that the users ~/.ssh/id_rsa.pub key is in
the file and removes duplicates, e.g. it calls fix before upload
Example:
ssh key list red[01-10] > pubkeys.txt
ssh key scp red[01-10] pubkeys.txt
host config NAMES IPS [--user=USER] [--key=PUBLIC]
generates an ssh config file tempalte that can be added to your
.ssh/config file
Example:
cms host config "red,red[01-03]" "198.168.1.[1-4]" --user=pi
host check NAMES [--user=USER] [--key=PUBLIC]
This command is used to test if you can login to the specified
hosts. It executes the hostname command and compares it.
It provides a table with a sucess column
cms host check "red,red[01-03]"
+-------+---------+--------+
| host | success | stdout |
+-------+---------+--------+
| red | True | red |
| red01 | True | red01 |
| red02 | True | red02 |
| red03 | True | red03 |
+-------+---------+--------+
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