#!/usr/bin/env bash
set -eu -o pipefail
-LIBDIR="$(dirname "$(dirname "$(dirname "$PWD")")")"
+SCRIPTDIR="$(readlink -f $(dirname ${BASH_SOURCE[0]}))"
+LIBDIR="$(dirname $(dirname $(dirname ${SCRIPTDIR})))/env/lib"
eval "$(go env)"
-source $LIBDIR/env/lib/common.sh
+source $LIBDIR/common.sh
if [[ $EUID -ne 0 ]]; then
echo "This script must be run as root"
exit 1
fi
-IMAGE_URL=http://172.22.0.1:6180/images/${BM_IMAGE}
-IMAGE_CHECKSUM=http://172.22.0.1:6180/images/${BM_IMAGE}.md5sum
-
function deprovision_compute_node {
name="$1"
if kubectl get baremetalhost $name -n metal3 &>/dev/null; then
fi
}
-# documentation for the values below may be found at
-# https://cloudinit.readthedocs.io/en/latest/topics/modules.html
function create_userdata {
name="$1"
username="$2"
exit 1
fi
- printf "#cloud-config\n" > $name-userdata.yaml
+ printf " userData:\n" >>${SCRIPTDIR}/machines-values.yaml
+ if [ -n "$username" ]; then
+ printf " name: ${username}\n" >>${SCRIPTDIR}/machines-values.yaml
+ fi
if [ -n "$password" ]; then
- if [ -n "$username" ]; then
- passwd=$(mkpasswd --method=SHA-512 --rounds 4096 "$password")
- printf "users:" >> $name-userdata.yaml
- printf "\n - name: ""%s" "$username" >> $name-userdata.yaml
- printf "\n lock_passwd: False" >> $name-userdata.yaml # necessary to allow password login
- printf "\n passwd: ""%s" "$passwd" >> $name-userdata.yaml
- printf "\n sudo: \"ALL=(ALL) NOPASSWD:ALL\"" >> $name-userdata.yaml
- else
- printf "password: ""%s" "$password" >> $name-userdata.yaml
- fi
- printf "\nchpasswd: {expire: False}\n" >> $name-userdata.yaml
- printf "ssh_pwauth: True\n" >> $name-userdata.yaml
+ passwd=$(mkpasswd --method=SHA-512 --rounds 4096 "$password")
+ printf " hashedPassword: ${passwd}\n" >>${SCRIPTDIR}/machines-values.yaml
fi
if [ -n "$COMPUTE_NODE_FQDN" ]; then
- printf "fqdn: ""%s" "$COMPUTE_NODE_FQDN" >> $name-userdata.yaml
- printf "\n" >> $name-userdata.yaml
+ printf " fqdn: ${COMPUTE_NODE_FQDN}\n" >>${SCRIPTDIR}/machines-values.yaml
fi
- printf "disable_root: false\n" >> $name-userdata.yaml
- printf "ssh_authorized_keys:\n - " >> $name-userdata.yaml
if [ ! -f $HOME/.ssh/id_rsa.pub ]; then
yes y | ssh-keygen -t rsa -N "" -f $HOME/.ssh/id_rsa
fi
- cat $HOME/.ssh/id_rsa.pub >> $name-userdata.yaml
- cloud_init_scripts >> $name-userdata.yaml
- printf "\n" >> $name-userdata.yaml
+ printf " sshAuthorizedKey: $(cat $HOME/.ssh/id_rsa.pub)\n" >>${SCRIPTDIR}/machines-values.yaml
}
create_networkdata() {
name="$1"
- node_networkdata $name > $name-networkdata.json
-}
-
-function cloud_init_scripts {
- # set_dhcp_indentifier.sh:
- # The IP address assigned to the provisioning NIC will change
- # due to IPA using the MAC address as the client ID and systemd
- # using a different ID. Tell systemd to use the MAC as the
- # client ID. We can't do this in the network data as only the
- # JSON format is supported by metal3, and the JSON format does
- # not support the dhcp-identifier field.
- # set_kernel_cmdline.sh:
- # The "intel_iommu=on iommu=pt" kernel command line is necessary
- # for QAT support.
- cat << 'EOF'
-write_files:
-- path: /var/lib/cloud/scripts/per-instance/set_dhcp_identifier.sh
- owner: root:root
- permissions: '0777'
- content: |
- #!/usr/bin/env bash
- set -eux -o pipefail
- sed -i -e '/dhcp4: true$/!b' -e 'h;s/\S.*/dhcp-identifier: mac/;H;g' /etc/netplan/50-cloud-init.yaml
- netplan apply
-- path: /var/lib/cloud/scripts/per-instance/set_kernel_cmdline.sh
- owner: root:root
- permissions: '0777'
- content: |
- #!/usr/bin/env bash
- set -eux -o pipefail
- grub_file=${1:-"/etc/default/grub"}
- kernel_parameters="intel_iommu=on iommu=pt"
- sed -i~ "/^GRUB_CMDLINE_LINUX=/{h;s/\(=\".*\)\"/\1 ${kernel_parameters}\"/};\${x;/^$/{s//GRUB_CMDLINE_LINUX=\"${kernel_parameters}\"/;H};x}" "$grub_file"
- update-grub
- reboot
-EOF
-}
-
-function apply_userdata_credential {
- name="$1"
- cat <<EOF > ./$name-user-data-credential.yaml
-apiVersion: v1
-data:
- userData: $(base64 -w 0 $name-userdata.yaml)
-kind: Secret
-metadata:
- name: $name-user-data
- namespace: metal3
-type: Opaque
-EOF
- kubectl apply -n metal3 -f $name-user-data-credential.yaml
-}
-
-apply_networkdata_credential() {
- name="$1"
- cat <<EOF > ./$name-network-data-credential.yaml
-apiVersion: v1
-data:
- networkData: $(base64 -w 0 $name-networkdata.json)
-kind: Secret
-metadata:
- name: $name-network-data
- namespace: metal3
-type: Opaque
-EOF
- kubectl apply -n metal3 -f $name-network-data-credential.yaml
+ node_networkdata $name >>${SCRIPTDIR}/machines-values.yaml
}
function make_bm_hosts {
- kubectl create namespace metal3 --dry-run=client -o yaml | kubectl apply -f -
while IFS=',' read -r name ipmi_username ipmi_password ipmi_address boot_mac os_username os_password os_image_name; do
+ printf " ${name}:\n" >>${SCRIPTDIR}/machines-values.yaml
+ printf " bmcUsername: ${ipmi_username}\n" >>${SCRIPTDIR}/machines-values.yaml
+ printf " bmcPassword: ${ipmi_password}\n" >>${SCRIPTDIR}/machines-values.yaml
+ printf " bmcAddress: ipmi://${ipmi_address}\n" >>${SCRIPTDIR}/machines-values.yaml
+ if [[ ! -z ${boot_mac} ]]; then
+ printf " bootMACAddress: ${boot_mac}\n" >>${SCRIPTDIR}/machines-values.yaml
+ fi
+ printf " imageName: ${BM_IMAGE}\n" >>${SCRIPTDIR}/machines-values.yaml
create_userdata $name $os_username $os_password
- apply_userdata_credential $name
create_networkdata $name
- apply_networkdata_credential $name
-
- GOPATH=$GOPATH:$(echo ${BMOPATH} | cut -d/ -f-2) GO111MODULE=auto \
- go run ${BMOPATH}/cmd/make-bm-worker/main.go \
- -address "ipmi://$ipmi_address" \
- -password "$ipmi_password" \
- -user "$ipmi_username" \
- -boot-mac "$boot_mac" \
- "$name" > $name-bm-node.yaml
-
- printf " image:" >> $name-bm-node.yaml
- printf "\n url: ""%s" "$IMAGE_URL" >> $name-bm-node.yaml
- printf "\n checksum: ""%s" "$IMAGE_CHECKSUM" >> $name-bm-node.yaml
- printf "\n userData:" >> $name-bm-node.yaml
- printf "\n name: ""%s" "$name""-user-data" >> $name-bm-node.yaml
- printf "\n namespace: metal3" >> $name-bm-node.yaml
- printf "\n networkData:" >> $name-bm-node.yaml
- printf "\n name: ""%s" "$name""-network-data" >> $name-bm-node.yaml
- printf "\n namespace: metal3" >> $name-bm-node.yaml
- printf "\n rootDeviceHints:" >> $name-bm-node.yaml
- printf "\n minSizeGigabytes: 48\n" >> $name-bm-node.yaml
- kubectl apply -f $name-bm-node.yaml -n metal3
done
}
#make sure nodes.json file in /opt/ironic/ are configured
if [ ! -f $IRONIC_DATA_DIR/nodes.json ]; then
- cp $PWD/nodes.json.sample $IRONIC_DATA_DIR/nodes.json
+ cp ${SCRIPTDIR}/nodes.json.sample $IRONIC_DATA_DIR/nodes.json
fi
}
-function remove_bm_hosts {
+function deprovision_bm_hosts {
while IFS=',' read -r name ipmi_username ipmi_password ipmi_address boot_mac os_username os_password os_image_name; do
deprovision_compute_node $name
done
}
-function cleanup {
- while IFS=',' read -r name ipmi_username ipmi_password ipmi_address boot_mac os_username os_password os_image_name; do
- kubectl delete --ignore-not-found=true bmh $name -n metal3
- kubectl delete --ignore-not-found=true secrets $name-bmc-secret -n metal3
- kubectl delete --ignore-not-found=true secrets $name-user-data -n metal3
- if [ -f $name-bm-node.yaml ]; then
- rm -rf $name-bm-node.yaml
- fi
-
- if [ -f $name-user-data-credential.yaml ]; then
- rm -rf $name-user-data-credential.yaml
- fi
-
- if [ -f $name-userdata.yaml ]; then
- rm -rf $name-userdata.yaml
- fi
- done
-}
-
function clean_all {
- list_nodes | cleanup
+ helm -n metal3 uninstall machines
+ rm -f ${SCRIPTDIR}/machines-values.yaml
if [ -f $IRONIC_DATA_DIR/nodes.json ]; then
rm -rf $IRONIC_DATA_DIR/nodes.json
fi
}
function apply_bm_hosts {
+ printf "machines:\n" >${SCRIPTDIR}/machines-values.yaml
list_nodes | make_bm_hosts
+ helm -n metal3 install machines ${SCRIPTDIR}/../../machines --create-namespace -f ${SCRIPTDIR}/machines-values.yaml
}
function deprovision_all_hosts {
- list_nodes | remove_bm_hosts
+ list_nodes | deprovision_bm_hosts
}
if [ "$1" == "deprovision" ]; then
fi
}
+# Returns "null" when the field is not present
+function networkdata_networks_field {
+ name=$1
+ network=$2
+ field=$3
+ NODES_FILE="${IRONIC_DATA_DIR}/nodes.json"
+ cat $NODES_FILE | jq -c -r --arg name "$name" --arg network "$network" --arg field "$field" '.nodes[] | select(.name==$name) | .net.networks[] | select(.id==$network).'${field}
+}
+
+# Returns "null" when the field is not present
+function networkdata_links_field {
+ name=$1
+ link=$2
+ field=$3
+ NODES_FILE="${IRONIC_DATA_DIR}/nodes.json"
+ cat $NODES_FILE | jq -c -r --arg name "$name" --arg link "$link" --arg field "$field" '.nodes[] | select(.name==$name) | .net.links[] | select(.id==$link).'${field}
+}
+
function node_networkdata {
name=$1
exit 1
fi
- cat $NODES_FILE | jq -r --arg name "$name" '.nodes[] | select(.name==$name) | .net'
+ printf " networks:\n"
+ for network in $(cat $NODES_FILE | jq -r --arg name "$name" '.nodes[] | select(.name==$name) | .net.networks[].id'); do
+ link=$(networkdata_networks_field $name $network "link")
+ type=$(networkdata_networks_field $name $network "type")
+ mac=$(networkdata_links_field $name $link "ethernet_mac_address")
+
+ # Optional values
+ ip_address=$(networkdata_networks_field $name $network "ip_address")
+ gateway=$(networkdata_networks_field $name $network "gateway")
+ dns_nameservers=$(networkdata_networks_field $name $network "dns_nameservers")
+
+ printf " ${network}:\n"
+ printf " macAddress: ${mac}\n"
+ printf " type: ${type}\n"
+ if [[ $ip_address != "null" ]]; then
+ printf " ipAddress: ${ip_address}\n"
+ fi
+ if [[ $gateway != "null" ]]; then
+ printf " gateway: ${gateway}\n"
+ fi
+ if [[ $dns_nameservers != "null" ]]; then
+ printf " nameservers: ${dns_nameservers}\n"
+ fi
+ done
}
function wait_for {