1.2. Production Install¶
Other installation paths:
Developer Install (Console Isolated) for developers running DRP interactively
Container Install (Docker/Podman) for trial users minimizing their install requirements
Cloud & VM Install (Non-PXE environments) is non-PXE / Cloud-Only installation process (no DHCP required)
Airgap Install for users installing on an airgapped system
Edge Lab with RPi is self-contained Digital Rebar inexpensive lab using Raspberry Pi computers.
Each of these environments requires careful setup up of your network environment and consideration with regard to competing DHCP services. The setup of these environments is outside the scope of this document.
1.2.1. Get Code¶
The code is delivered by as a TAR GZipped file (though it carries a
.zip filename extension) with a sha256sum to validate contents. These are stored in an AWS S3 bucket and referenced by the catalog found at catalog. You can view the Catalog contents with a simple
curl command (
curl -s --compressed https://repo.rackn.io), and with
jq, parse it to find the paths where things are stored. However, parsing the Catalog file is generally not needed.
There are at least 3 releases to choose from:
tip - This is the most recent code. This is the latest build of master. It is bleeding edge and while the project attempts to be very stable with master, it can have issues.
stable - This is the most recent stable code.
v4.6.4 - There will be a set of Semantic Versioning (aka semver) named releases. This is just ane example version string.
Previous releases will continue to be available in tag/release history. For additional information, see Release Process.
When using the install.sh script, the version can be specified by the –drp-version flag, e.g. –drp-version=v4.6.4.
Updating for current version, an example command sequence for Linux would be:
export DRPVERSION="v4.6.4" # plz check for current ver before blindly using this!! mkdir dr-provision-install cd dr-provision-install # if $DRPVERSION > 4.7 then update to $DRPVERSION.$arch.$os.zip # example: curl -fsSL https://rebar-catalog.s3-us-west-2.amazonaws.com/drp/$DRPVERSION.amd64.linux.zip -o dr-provision.zip curl -fsSL https://rebar-catalog.s3-us-west-2.amazonaws.com/drp/$DRPVERSION.zip -o dr-provision.zip curl -fsSL https://rebar-catalog.s3-us-west-2.amazonaws.com/drp/$DRPVERSION.sha256 -o dr-provision.sha256 sha256sum -c dr-provision.sha256 tar -xzvf dr-provision.zip # yes - it's really not a 'zip' file
At this point, the install.sh script is available in the tools directory. It can be used to continue the process or continue following the steps in the next sections.
tools/install.sh –help will provide help and context information. Specifically, you will need the
--zipfile option for this installation method.
1.2.2. Install Configuration Options¶
dr-provision --help will provide the most complete list of configuration options. The following common items are provided for reference. Please note these may change from version to version, check the current scripts options with the
--help flag to verify current options.
--version Print Version and exit --disable-provisioner Disable provisioner --disable-dhcp Disable DHCP --static-port= Port the static HTTP file server should listen on (default: 8091) --tftp-port= Port for the TFTP server to listen on (default: 69) --api-port= Port for the API server to listen on (default: 8092) --dhcp-port= Port for the DHCP server to listen on (default: 67) --backend= Storage backend to use. Can be either 'consul' or 'directory' (default: directory) --data-root= Location we should store runtime information in (default: /var/lib/dr-provision) --static-ip= IP address to advertise for the static HTTP file server (default: 192.168.124.11) --file-root= Root of filesystem we should manage (default: /var/lib/tftpboot) --dhcp-ifs= Comma-seperated list of interfaces to listen for DHCP packets --debug-bootenv= Debug level for the BootEnv System - 0 = off, 1 = info, 2 = debug (default: 0) --debug-dhcp= Debug level for the DHCP Server - 0 = off, 1 = info, 2 = debug (default: 0) --debug-renderer= Debug level for the Template Renderer - 0 = off, 1 = info, 2 = debug (default: 0) --tls-key= The TLS Key File (default: server.key) --tls-cert= The TLS Cert File (default: server.crt) --systemd= Run the systemd enabling commands after installation --startup= Attempt to start the dr-provision service
In pre v4.2 releases, the dr-provision requires two applications to operate correctly, bsdtar and 7z. These are used to extract the contents of iso and tar images to be served by the file server component of dr-provision
1.2.3. Running The Server¶
Additional support materials in FAQ / Troubleshooting.
The install.sh script provides three options for running dr-provision.
The default values install the server and cli in /usr/local/bin. It will also put a service control file in place. Once that finishes, the appropriate service start method will run the daemon. The install.sh script prints out the command to run and enable the service. The method described in the Quick Start Guide can be used to deploy this way if the –isolated flag is removed from the command line. Look at the internals of the install.sh script to see what is going on.
The default location for storing runtime information is
/var/lib/dr-provision unless overridden by
- The default username & password used for administering the dr-provision service is:
username: rocketskates password: r0cketsk8ts
Please review –help for options like disabling services, logging or paths.
sudo may be required to handle binding to the TFTP and DHCP ports.
Once running, the following endpoints are available:
https://127.0.0.1:8092/swagger-ui - swagger-ui to explore the API
https://127.0.0.1:8092/swagger.json - API Swagger JSON file
https://127.0.0.1:8092/api/v3 - Raw api endpoint
https://127.0.0.1:8092/ - Redirects to RackN Portal (available for community use)
http://127.0.0.1:8091 - Static files served by http from the test-data/tftpboot directory
https://127.0.0.1:8090 - Static files served by https from the test-data/tftpboot directory (4.7 and higher)
udp 69 - Static files served from the test-data/tftpboot directory through the tftp protocol
udp 67 - DHCP Server listening socket - will only serve addresses when once configured. By default, silent.
udp 4011 - BINL Server listening socket - will only serve bootfiles when once configured. By default, silent.
The API, File Server, DHCP, BINL, and TFTP ports can be configured, but DHCP, BINL, and TFTP may not function properly on non-standard ports.
If the SSL certificate is not valid, then follow the Knowledge Base Article: kb-00005 steps.
On MAC DARWIN there is one additional step. You may have to add a route for broadcast addresses to work. This can be done with the following comand. The 192.168.100.1 is the IP address of the interface that you want to send messages through. The install script will make suggestions for you.
sudo route add 255.255.255.255 192.168.100.1
1.2.4. Production Deployments¶
The following items should be considered for production deployments. Recommendations may be missing so operators should use their best judgement.
184.108.40.206. Start DRP Without Root (or sudo)¶
If you are using DHCPD and TFTPD services of DRP, you will need to be able to bind to port 67 and 69 (respectively). Typically Unix/Linux systems require root privileges to do this.
DRP doesn’t start as root and then drop privileges with a
fork() to another less privileged user by default.
To enable DRP endpoint to run as a non-privileged user and ensure a higher level of security, it’s possible to use the Linux “setcap” (Capabilities) system to assign rights for the dr-provision binary to open low numbered (privileged) ports. The process is relatively simple, but does (clearly/obviously) require root permissions initially to enable the capabilities for the binary. Once the capabilities have been set, the dr-provision binary can be run as a standard user.
To enable any non-privileged user to start up the dr-provision binary and bind to privileged ports 67 and 69, do the following:
“isolated” mode, as the user you installed DRP as
sudo setcap “cap_net_raw,cap_net_bind_service=+ep” $HOME/bin/linux/amd64/dr-provision
sudo setcap “cap_net_raw,cap_net_bind_service=+ep” /usr/local/bin/dr-provision
Start the “dr-provision” binary as an ordinary user, and now it will have permission to bind to privileged ports 67 and 69.
For automated Upgrade and Downgrade DRP from within DRP, the user that is running DRP needs to have the following in /etc/sudousers. In this example, drp-user is the user running DRP. This will allow DRP to update itself.
drp-user ALL=(ALL:ALL) NOPASSWD:/usr/sbin/setcap
The setcap command must reference the actual binary itself, and can not be pointed at a symbolic link. Additional refinement of the capabilities may be possible. For extremely security conscious setups, you may want to refer to the StackOverflow discussion (eg setting capabilities on a per-user basis, etc.): https://stackoverflow.com/questions/1956732/is-it-possible-to-configure-linux-capabilities-per-user
You must run the setcap command after every upgrade of DRP, the setcap tracks the binary and if it changes, you must rerun for the new binary.
220.127.116.11. System Logs¶
The Digital Rebar Provision service logs by sending output to standard error. To capture system logs, SystemD (or Docker) should be configured to direct this output to the desired log management infrastructrure.
18.104.22.168. Job Log Rotation¶
If you are using the jobs system, Digital Rebar Provision stores job logs based on the directory configuration of the system. This data is considered compliance related information; consequently, the system does not automatically remove these records.
Operators should set up a job log rotation mechanism to ensure that these logs to not exhaust available disk space.
22.214.171.124. Removal of Digital Rebar Provision¶
To remove Digital Rebar Provision, you can use the tools/install.sh script to remove programs for a
production installs. The tools/install.sh script should be run as root or under sudo unless the
setcap process was used.
To remove programs and data use.
tools/install.sh --remove-data remove
1.2.5. Running the RackN UX Locally¶
Setting up DRP to host the RackN UX locally is trivial. The DRP server includes an embedded web server that can host the UX files from a local directory. The RackN UX can also be set up using any other HTTP server, however this document only addresses the setup related to using DRP as the HTTP server.
The RackN UX uses the rackn-license content pack for entitlements so no external login to the RacKN SaaS is required.
The RackN UX will still attempt to connect the RackN SaaS for updates and the catalog; however, the system will operate even if these calls fail. This can be turned off by setting the
ux.core.airgap option in the UX Config page to
Before starting, you’ll need a copy of the RackN UX and to have installed a
rackn-license.json content package in the DRP server. These items require a current RackN license - using them without a valid enterprise or trial license is a copyright violation.
Extract the RackN UX files into a directory named
ux at the same level as the
drp-data directory. The account running your
dr-server must have read permission for this directory. See below for directions to do this via the DRPCLI.
It is OK to use a different directory - the different directory can be specified with the
--local-ui=true command line option for dr-provision. The option specifies the directory containing the UX files. If the path is relative, it will be assumed to be relative to the
After the install flags are set, the following steps may be used to upload the local UX to the endpoint. This can be performed remotely.
drpcli -c [PATH PROVIDED BY RACKN] catalog item download drp-ux > drp-ux.zip drpcli files upload drp-ux.zip as "/ux/drp-ux.zip" --explode
126.96.36.199. Running the UX from DRP¶
By unpacking the files in the
ux directory within the
data-root directory or specifying the
--local-ui=true option, the DRP endpoint will serve that directory as
The endpoint will detect file changes so no restart is required if you update or change the RackN UX files.
If you are using the default port, you will be redirect to the local UX (served from
https://[DRP IP]/ux) instead of the RackN portal when you option the DRP endpoint in a browser.
NOTE: This will only serve the files for the UX; it will not ensure that the UX starts connecting to the current DRP instance. To address that, continue below.
188.8.131.52. Redirecting URL¶
If you are hosting a local UX, you should change the DRP endpoint UX redirect. This is the site that is presented if you visit the DRP endpoints root URL,
/, or the official UI url,
/ui. To use the local ux, add
--ui-url=/ux to the
dr-provision command line arguments.
If you have connect to this DRP Endpoint previously, you may need to clear the browsers permanent redirect cache to start using the new feature.
Air Gap mode - the RackN UX disables all external calls and only operates against the local DRP endpoint. See Airgap Install for details on Airgap install.