X-Git-Url: https://gerrit.fd.io/r/gitweb?p=csit.git;a=blobdiff_plain;f=resources%2Ftools%2Ftestbed-setup%2FREADME.md;h=4550f5c59a0a7bbdf522412bcc8a48dd9c003f96;hp=a83fe1496fa69a26435cd0311cdb8f590156582d;hb=29f64252f7ad9d51e83cfbcd848d08848c5dc688;hpb=bca7bcede75d4fa3713a2317b87820d4d3439b7b
diff --git a/resources/tools/testbed-setup/README.md b/resources/tools/testbed-setup/README.md
index a83fe1496f..4550f5c59a 100644
--- a/resources/tools/testbed-setup/README.md
+++ b/resources/tools/testbed-setup/README.md
@@ -24,20 +24,35 @@ The process below assumes that there is a host used for boostrapping (referred
to as "PXE boostrap server" below), and that the directory containig this README
is available on the PXE bootstrap server in ~testuser/host-setup.
-### Prepare the PXE bootstrap server (one-time)
+### Prepare the PXE bootstrap server when there is no http server AMD64
- `sudo apt-get install isc-dhcp-server tftpd-hpa nginx-light ansible`
+ - edit dhcpd.conf and place it to /etc/dhcp/
+ - `sudo cp dhcpd.cfg /etc/dhcp/`
+ - `sudo service isc-dhcp-server restart`
- `cd ~testuser/host-setup`
- - `wget 'http://releases.ubuntu.com/14.04/ubuntu-14.04.4-server-amd64.iso'`
- `sudo mkdir /mnt/cdrom`
- - `sudo mount -o loop ubuntu-14.04.4-server-amd64.iso /mnt/cdrom/`
+ - Ubuntu Xenial
+ - `wget 'http://releases.ubuntu.com/16.04.2/ubuntu-16.04.2-server-amd64.iso'`
+ - `sudo mount -o loop ubuntu-16.04.2-server-amd64.iso /mnt/cdrom/`
+ - Ubuntu Bionic
+ - `wget 'http://cdimage.ubuntu.com/ubuntu/releases/18.04/release/ubuntu-18.04-server-amd64.iso'`
+ - `sudo mount -o loop ubuntu-18.04-server-amd64.iso /mnt/cdrom/`
- `sudo cp -r /mnt/cdrom/install/netboot/* /var/lib/tftpboot/`
- - `sudo mkdir /usr/share/nginx/html/ubuntu`
- - `sudo cp -r /mnt/cdrom/* /usr/share/nginx/html/ubuntu/`
+ - figure out where nginx will look for files on the filesystem when
+ responding to HTTP requests. The configuration is in one of the
+ files in /etc/nginx/conf.d/, /etc/nginx/sites-enabled/ or in
+ /etc/nginx/nginx.conf under section server/root. Save the path to WWW_ROOT
+ - `sudo mkdir -p ${WWW_ROOT}/download/ubuntu`
+ - `sudo cp -r /mnt/cdrom/* ${WWW_ROOT}/download/ubuntu/`
+ - `sudo cp /mnt/cdrom/ubuntu/isolinux/ldlinux.c32 /var/lib/tftpboot`
+ - `sudo cp /mnt/cdrom/ubuntu/isolinux/libcom32.c32 /var/lib/tftpboot`
+ - `sudo cp /mnt/cdrom/ubuntu/isolinux/libutil.c32 /var/lib/tftpboot`
+ - `sudo cp /mnt/cdrom/ubuntu/isolinux/chain.c32 /var/lib/tftpboot`
- `sudo umount /mnt/cdrom`
- - edit ks.cfg and replace IP address with that of your PXE bootstrap server
- - `sudo cp ks.cfg /usr/share/nginx/html/ks.cfg`
- - edit boot-screens_txt.cfg and replace IP address with that of your PXE bootstrap server
+ - edit ks.cfg and replace IP address with that of your PXE bootstrap server and subdir in /var/www (in this case /download)
+ - `sudo cp ks.cfg ${WWW_ROOT}/download/ks.cfg`
+ - edit boot-screens_txt.cfg and replace IP address with that of your PXE bootstrap server and subdir in /var/www (in this case /download)
- `sudo cp boot-screens_txt.cfg /var/lib/tftpboot/ubuntu-installer/amd64/boot-screens/txt.cfg`
- `sudo cp syslinux.cfg /var/lib/tftpboot/ubuntu-installer/amd64/boot-screens/syslinux.cfg`
@@ -45,55 +60,50 @@ is available on the PXE bootstrap server in ~testuser/host-setup.
- set CIMC address
- set CIMC username, password and hostname
+- set IPMI address
+- set IPMI username, password and hostname
### Bootstrap the host
-From PXE boostrap server:
+Optional: From PXE boostrap server in case of installing Haswell
- - `cd ~testuser/host-setup/cimc`
+ - `cd resources/tools/testbed-setup/cimc`
+ - Initialize args.ip: Power-Off, reset BIOS defaults, Enable console redir, get LOM MAC addr
- `./cimc.py -u admin -p Cisco1234 $CIMC_ADDRESS -d -i`
+ - Adjust BIOS settings
- `./cimc.py -u admin -p Cisco1234 $CIMC_ADDRESS -d -s '' -s '' -s ''`
- - add MAC address to DHCP
+ - add MAC address to DHCP (/etc/dhcp/dhcpd.conf)
+ - Reboot server with boot from PXE (restart immediately)
- `./cimc.py -u admin -p Cisco1234 $CIMC_ADDRESS -d -pxe`
-While Ubuntu install is running:
+Optional: If RAID is not created on Haswells. Execute while Ubuntu install is running
- create RAID array. Reboot if needed.
- `./cimc.py -u admin -p Cisco1234 $CIMC_ADDRESS -d --wipe`
- `./cimc.py -u admin -p Cisco1234 $CIMC_ADDRESS -d -r -rl 1 -rs -rd '[1,2]'`
Alternatively, create the RAID array manually.
+ - Set the next boot from HDD (without restart)
- `./cimc.py -u admin -p Cisco1234 $CIMC_ADDRESS -d -hdd`
-When installation is finished:
-
- - `ssh-copy-id <>`
- - `cd ~testuser/host-setup/playbooks`
- - edit /etc/ansible/hosts; add the hosts you are installing. *REMOVE ANY HOSTS YOU ARE NOT CURRENTLY INSTALLING*.
-
- Example for physical testbed hosts:
- ~~~
- [tg]
- 10.30.51.16 hostname=t1-tg1
+Optional: If installing Skylake machine
- [sut]
- 10.30.51.17 hostname=t1-sut1
- 10.30.51.18 hostname=t1-sut2
- ~~~
+ - Get MAC address of LAN0
+ - `ipmitool -U ADMIN -H $HOST_ADDRESS raw 0x30 0x21 | tail -c 18`
+ - Reboot into PXE for next boot only
+ - `ipmitool -I lanplus -H $HOST_ADDRESS -U ADMIN chassis bootdev pxe`
- Example for VIRL hosts -- use the "virl" tag and specify the flat network start and end addresses:
- ~~~
- [virl]
- 10.30.51.28 hostname=t4-virl1 virl_l2_start=10.30.51.31 virl_l2_end=10.30.51.105
- ~~~
+When installation is finished:
- - `ansible-playbook --ask-sudo-pass 01-host-setup.yaml`
- - `ansible-playbook reboot.yaml`
+ - Copy ssh keys for no pass access: `ssh-copy-id 10.30.51.x`
+ - Clone CSIT actual repo: `git clone https://gerrit.fd.io/r/csit`
+ - Go to ansible directory: `cd csit/resources/tools/testbed-setup/ansible`
+ - Edit production file and uncomment servers that are supposed to be installed: `ansible-playbook --ask-become-pass --inventory production site.yaml --list-hosts`
+ - Run ansible on selected hosts: `ansible-playbook --ask-become-pass --inventory production site.yaml`
For non-VIRL hosts, stop here.
-
### VIRL installation
After the host has rebooted: