devstack/lib/baremetal
Eric Windisch e994f5708d Remove bm_poseur, unmaintained and obsolete
The bm_poseur git repository link has been broken
for over 11 months. The virtualized/fake baremetal
environment is not working and has not worked in a
long time. Now, on the tail of enabling 'enable -o errexit',
this functionality now has a hard break.

Change-Id: I3cbd8db58c422bc5273d2433278aaa5e449ecfd9
Closes-Bug: 1285954
2014-02-28 15:21:38 -05:00

436 lines
15 KiB
Plaintext

## vim: tabstop=4 shiftwidth=4 softtabstop=4
## Copyright (c) 2012 Hewlett-Packard Development Company, L.P.
## All Rights Reserved.
##
## Licensed under the Apache License, Version 2.0 (the "License"); you may
## not use this file except in compliance with the License. You may obtain
## a copy of the License at
##
## http://www.apache.org/licenses/LICENSE-2.0
##
## Unless required by applicable law or agreed to in writing, software
## distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
## WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
## License for the specific language governing permissions and limitations
## under the License.
# This file provides devstack with the environment and utilities to
# control nova-compute's baremetal driver.
# It sets reasonable defaults to run within a single host,
# using virtual machines in place of physical hardware.
# However, by changing just a few options, devstack+baremetal can in fact
# control physical hardware resources on the same network, if you know
# the MAC address(es) and IPMI credentials.
#
# At a minimum, to enable the baremetal driver, you must set these in localrc:
#
# VIRT_DRIVER=baremetal
# ENABLED_SERVICES="$ENABLED_SERVICES,baremetal"
#
#
# We utilize diskimage-builder to create a ramdisk, and then
# baremetal driver uses that to push a disk image onto the node(s).
#
# Below we define various defaults which control the behavior of the
# baremetal compute service, and inform it of the hardware it will control.
#
# Below that, various functions are defined, which are called by devstack
# in the following order:
#
# before nova-cpu starts:
#
# - prepare_baremetal_toolchain
# - configure_baremetal_nova_dirs
#
# after nova and glance have started:
#
# - build_and_upload_baremetal_deploy_k_and_r $token
# - create_baremetal_flavor $BM_DEPLOY_KERNEL_ID $BM_DEPLOY_RAMDISK_ID
# - upload_baremetal_image $url $token
# - add_baremetal_node <first_mac> <second_mac>
# Save trace setting
XTRACE=$(set +o | grep xtrace)
set +o xtrace
# Sub-driver settings
# -------------------
# sub-driver to use for kernel deployment
#
# - nova.virt.baremetal.pxe.PXE
# - nova.virt.baremetal.tilera.TILERA
BM_DRIVER=${BM_DRIVER:-nova.virt.baremetal.pxe.PXE}
# sub-driver to use for remote power management
#
# - nova.virt.baremetal.fake.FakePowerManager, for manual power control
# - nova.virt.baremetal.ipmi.IPMI, for remote IPMI
# - nova.virt.baremetal.tilera_pdu.Pdu, for TilePro hardware
BM_POWER_MANAGER=${BM_POWER_MANAGER:-nova.virt.baremetal.fake.FakePowerManager}
# These should be customized to your environment and hardware
# -----------------------------------------------------------
# To provide PXE, configure nova-network's dnsmasq rather than run the one
# dedicated to baremetal. When enable this, make sure these conditions are
# fulfilled:
#
# 1) nova-compute and nova-network runs on the same host
# 2) nova-network uses FlatDHCPManager
#
# NOTE: the other BM_DNSMASQ_* have no effect on the behavior if this option
# is enabled.
BM_DNSMASQ_FROM_NOVA_NETWORK=`trueorfalse False $BM_DNSMASQ_FROM_NOVA_NETWORK`
# BM_DNSMASQ_IFACE should match FLAT_NETWORK_BRIDGE
BM_DNSMASQ_IFACE=${BM_DNSMASQ_IFACE:-eth0}
# if testing on a physical network,
# BM_DNSMASQ_RANGE must be changed to suit your network
BM_DNSMASQ_RANGE=${BM_DNSMASQ_RANGE:-}
# BM_DNSMASQ_DNS provide dns server to bootstrap clients
BM_DNSMASQ_DNS=${BM_DNSMASQ_DNS:-}
# BM_FIRST_MAC *must* be set to the MAC address of the node you will
# boot. This is passed to dnsmasq along with the kernel/ramdisk to
# deploy via PXE.
BM_FIRST_MAC=${BM_FIRST_MAC:-}
# BM_SECOND_MAC is only important if the host has >1 NIC.
BM_SECOND_MAC=${BM_SECOND_MAC:-}
# Hostname for the baremetal nova-compute node, if not run on this host
BM_HOSTNAME=${BM_HOSTNAME:-$(hostname -f)}
# BM_PM_* options are only necessary if BM_POWER_MANAGER=...IPMI
BM_PM_ADDR=${BM_PM_ADDR:-0.0.0.0}
BM_PM_USER=${BM_PM_USER:-user}
BM_PM_PASS=${BM_PM_PASS:-pass}
# BM_FLAVOR_* options are arbitrary and not necessarily related to
# physical hardware capacity. These can be changed if you are testing
# BaremetalHostManager with multiple nodes and different flavors.
BM_CPU_ARCH=${BM_CPU_ARCH:-x86_64}
BM_FLAVOR_CPU=${BM_FLAVOR_CPU:-1}
BM_FLAVOR_RAM=${BM_FLAVOR_RAM:-1024}
BM_FLAVOR_ROOT_DISK=${BM_FLAVOR_ROOT_DISK:-10}
BM_FLAVOR_EPHEMERAL_DISK=${BM_FLAVOR_EPHEMERAL_DISK:-0}
BM_FLAVOR_SWAP=${BM_FLAVOR_SWAP:-1}
BM_FLAVOR_NAME=${BM_FLAVOR_NAME:-bm.small}
BM_FLAVOR_ID=${BM_FLAVOR_ID:-11}
BM_FLAVOR_ARCH=${BM_FLAVOR_ARCH:-$BM_CPU_ARCH}
# Below this, we set some path and filenames.
# Defaults are probably sufficient.
BM_IMAGE_BUILD_DIR=${BM_IMAGE_BUILD_DIR:-$DEST/diskimage-builder}
# Use DIB to create deploy ramdisk and kernel.
BM_BUILD_DEPLOY_RAMDISK=`trueorfalse True $BM_BUILD_DEPLOY_RAMDISK`
# If not use DIB, these files are used as deploy ramdisk/kernel.
# (The value must be a relative path from $TOP_DIR/files/)
BM_DEPLOY_RAMDISK=${BM_DEPLOY_RAMDISK:-}
BM_DEPLOY_KERNEL=${BM_DEPLOY_KERNEL:-}
# If you need to add any extra flavors to the deploy ramdisk image
# eg, specific network drivers, specify them here
BM_DEPLOY_FLAVOR=${BM_DEPLOY_FLAVOR:-}
# set URL and version for google shell-in-a-box
BM_SHELL_IN_A_BOX=${BM_SHELL_IN_A_BOX:-http://shellinabox.googlecode.com/files/shellinabox-2.14.tar.gz}
# Functions
# ---------
# Check if baremetal is properly enabled
# Returns false if VIRT_DRIVER is not baremetal, or if ENABLED_SERVICES
# does not contain "baremetal"
function is_baremetal {
if [[ "$ENABLED_SERVICES" =~ 'baremetal' && "$VIRT_DRIVER" = 'baremetal' ]]; then
return 0
fi
return 1
}
# Install diskimage-builder and shell-in-a-box
# so that we can build the deployment kernel & ramdisk
function prepare_baremetal_toolchain {
git_clone $BM_IMAGE_BUILD_REPO $BM_IMAGE_BUILD_DIR $BM_IMAGE_BUILD_BRANCH
local shellinabox_basename=$(basename $BM_SHELL_IN_A_BOX)
if [[ ! -e $DEST/$shellinabox_basename ]]; then
cd $DEST
wget $BM_SHELL_IN_A_BOX
fi
if [[ ! -d $DEST/${shellinabox_basename%%.tar.gz} ]]; then
cd $DEST
tar xzf $shellinabox_basename
fi
if [[ ! $(which shellinaboxd) ]]; then
cd $DEST/${shellinabox_basename%%.tar.gz}
./configure
make
sudo make install
fi
}
# prepare various directories needed by baremetal hypervisor
function configure_baremetal_nova_dirs {
# ensure /tftpboot is prepared
sudo mkdir -p /tftpboot
sudo mkdir -p /tftpboot/pxelinux.cfg
PXEBIN=/usr/share/syslinux/pxelinux.0
if [ ! -f $PXEBIN ]; then
PXEBIN=/usr/lib/syslinux/pxelinux.0
if [ ! -f $PXEBIN ]; then
die $LINENO "pxelinux.0 (from SYSLINUX) not found."
fi
fi
sudo cp $PXEBIN /tftpboot/
sudo chown -R $STACK_USER:$LIBVIRT_GROUP /tftpboot
# ensure $NOVA_STATE_PATH/baremetal is prepared
sudo mkdir -p $NOVA_STATE_PATH/baremetal
sudo mkdir -p $NOVA_STATE_PATH/baremetal/console
sudo mkdir -p $NOVA_STATE_PATH/baremetal/dnsmasq
sudo touch $NOVA_STATE_PATH/baremetal/dnsmasq/dnsmasq-dhcp.host
sudo chown -R $STACK_USER $NOVA_STATE_PATH/baremetal
# ensure dnsmasq is installed but not running
# because baremetal driver will reconfigure and restart this as needed
is_package_installed dnsmasq || install_package dnsmasq
stop_service dnsmasq
}
# build deploy kernel+ramdisk, then upload them to glance
# this function sets BM_DEPLOY_KERNEL_ID and BM_DEPLOY_RAMDISK_ID
function upload_baremetal_deploy {
token=$1
if [ "$BM_BUILD_DEPLOY_RAMDISK" = "True" ]; then
BM_DEPLOY_KERNEL=bm-deploy.kernel
BM_DEPLOY_RAMDISK=bm-deploy.initramfs
if [ ! -e "$TOP_DIR/files/$BM_DEPLOY_KERNEL" -o ! -e "$TOP_DIR/files/$BM_DEPLOY_RAMDISK" ]; then
$BM_IMAGE_BUILD_DIR/bin/ramdisk-image-create $BM_DEPLOY_FLAVOR deploy \
-o $TOP_DIR/files/bm-deploy
fi
fi
# load them into glance
BM_DEPLOY_KERNEL_ID=$(glance \
--os-auth-token $token \
--os-image-url http://$GLANCE_HOSTPORT \
image-create \
--name $BM_DEPLOY_KERNEL \
--is-public True --disk-format=aki \
< $TOP_DIR/files/$BM_DEPLOY_KERNEL | grep ' id ' | get_field 2)
BM_DEPLOY_RAMDISK_ID=$(glance \
--os-auth-token $token \
--os-image-url http://$GLANCE_HOSTPORT \
image-create \
--name $BM_DEPLOY_RAMDISK \
--is-public True --disk-format=ari \
< $TOP_DIR/files/$BM_DEPLOY_RAMDISK | grep ' id ' | get_field 2)
}
# create a basic baremetal flavor, associated with deploy kernel & ramdisk
#
# Usage: create_baremetal_flavor <aki_uuid> <ari_uuid>
function create_baremetal_flavor {
aki=$1
ari=$2
nova flavor-create $BM_FLAVOR_NAME $BM_FLAVOR_ID \
$BM_FLAVOR_RAM $BM_FLAVOR_ROOT_DISK $BM_FLAVOR_CPU
nova flavor-key $BM_FLAVOR_NAME set \
"cpu_arch"="$BM_FLAVOR_ARCH" \
"baremetal:deploy_kernel_id"="$aki" \
"baremetal:deploy_ramdisk_id"="$ari"
}
# Pull run-time kernel/ramdisk out of disk image and load into glance.
# Note that $file is currently expected to be in qcow2 format.
# Sets KERNEL_ID and RAMDISK_ID
#
# Usage: extract_and_upload_k_and_r_from_image $token $file
function extract_and_upload_k_and_r_from_image {
token=$1
file=$2
image_name=$(basename "$file" ".qcow2")
# this call returns the file names as "$kernel,$ramdisk"
out=$($BM_IMAGE_BUILD_DIR/bin/disk-image-get-kernel \
-x -d $TOP_DIR/files -o bm-deploy -i $file)
if [ $? -ne 0 ]; then
die $LINENO "Failed to get kernel and ramdisk from $file"
fi
XTRACE=$(set +o | grep xtrace)
set +o xtrace
out=$(echo "$out" | tail -1)
$XTRACE
OUT_KERNEL=${out%%,*}
OUT_RAMDISK=${out##*,}
# load them into glance
KERNEL_ID=$(glance \
--os-auth-token $token \
--os-image-url http://$GLANCE_HOSTPORT \
image-create \
--name $image_name-kernel \
--is-public True --disk-format=aki \
< $TOP_DIR/files/$OUT_KERNEL | grep ' id ' | get_field 2)
RAMDISK_ID=$(glance \
--os-auth-token $token \
--os-image-url http://$GLANCE_HOSTPORT \
image-create \
--name $image_name-initrd \
--is-public True --disk-format=ari \
< $TOP_DIR/files/$OUT_RAMDISK | grep ' id ' | get_field 2)
}
# Re-implementation of devstack's "upload_image" function
#
# Takes the same parameters, but has some peculiarities which made it
# easier to create a separate method, rather than complicate the logic
# of the existing function.
function upload_baremetal_image {
local image_url=$1
local token=$2
# Create a directory for the downloaded image tarballs.
mkdir -p $FILES/images
# Downloads the image (uec ami+aki style), then extracts it.
IMAGE_FNAME=`basename "$image_url"`
if [[ ! -f $FILES/$IMAGE_FNAME || \
"$(stat -c "%s" $FILES/$IMAGE_FNAME)" = "0" ]]; then
wget -c $image_url -O $FILES/$IMAGE_FNAME
if [[ $? -ne 0 ]]; then
echo "Not found: $image_url"
return
fi
fi
local KERNEL=""
local RAMDISK=""
local DISK_FORMAT=""
local CONTAINER_FORMAT=""
case "$IMAGE_FNAME" in
*.tar.gz|*.tgz)
# Extract ami and aki files
[ "${IMAGE_FNAME%.tar.gz}" != "$IMAGE_FNAME" ] &&
IMAGE_NAME="${IMAGE_FNAME%.tar.gz}" ||
IMAGE_NAME="${IMAGE_FNAME%.tgz}"
xdir="$FILES/images/$IMAGE_NAME"
rm -Rf "$xdir";
mkdir "$xdir"
tar -zxf $FILES/$IMAGE_FNAME -C "$xdir"
KERNEL=$(for f in "$xdir/"*-vmlinuz* "$xdir/"aki-*/image; do
[ -f "$f" ] && echo "$f" && break; done; true)
RAMDISK=$(for f in "$xdir/"*-initrd* "$xdir/"ari-*/image; do
[ -f "$f" ] && echo "$f" && break; done; true)
IMAGE=$(for f in "$xdir/"*.img "$xdir/"ami-*/image; do
[ -f "$f" ] && echo "$f" && break; done; true)
if [[ -z "$IMAGE_NAME" ]]; then
IMAGE_NAME=$(basename "$IMAGE" ".img")
fi
DISK_FORMAT=ami
CONTAINER_FORMAT=ami
;;
*.qcow2)
IMAGE="$FILES/${IMAGE_FNAME}"
IMAGE_NAME=$(basename "$IMAGE" ".qcow2")
DISK_FORMAT=qcow2
CONTAINER_FORMAT=bare
;;
*) echo "Do not know what to do with $IMAGE_FNAME"; false;;
esac
if [ "$CONTAINER_FORMAT" = "bare" ]; then
extract_and_upload_k_and_r_from_image $token $IMAGE
elif [ "$CONTAINER_FORMAT" = "ami" ]; then
KERNEL_ID=$(glance \
--os-auth-token $token \
--os-image-url http://$GLANCE_HOSTPORT \
image-create \
--name "$IMAGE_NAME-kernel" --is-public True \
--container-format aki \
--disk-format aki < "$KERNEL" | grep ' id ' | get_field 2)
RAMDISK_ID=$(glance \
--os-auth-token $token \
--os-image-url http://$GLANCE_HOSTPORT \
image-create \
--name "$IMAGE_NAME-ramdisk" --is-public True \
--container-format ari \
--disk-format ari < "$RAMDISK" | grep ' id ' | get_field 2)
else
# TODO(deva): add support for other image types
return
fi
glance \
--os-auth-token $token \
--os-image-url http://$GLANCE_HOSTPORT \
image-create \
--name "${IMAGE_NAME%.img}" --is-public True \
--container-format $CONTAINER_FORMAT \
--disk-format $DISK_FORMAT \
${KERNEL_ID:+--property kernel_id=$KERNEL_ID} \
${RAMDISK_ID:+--property ramdisk_id=$RAMDISK_ID} < "${IMAGE}"
# override DEFAULT_IMAGE_NAME so that tempest can find the image
# that we just uploaded in glance
DEFAULT_IMAGE_NAME="${IMAGE_NAME%.img}"
}
function clear_baremetal_of_all_nodes {
list=$(nova baremetal-node-list | awk -F '| ' 'NR>3 {print $2}' )
for node in $list; do
nova baremetal-node-delete $node
done
}
# Inform nova-baremetal about nodes, MACs, etc.
# Defaults to using BM_FIRST_MAC and BM_SECOND_MAC if parameters not specified
#
# Usage: add_baremetal_node <first_mac> <second_mac>
function add_baremetal_node {
mac_1=${1:-$BM_FIRST_MAC}
mac_2=${2:-$BM_SECOND_MAC}
id=$(nova baremetal-node-create \
--pm_address="$BM_PM_ADDR" \
--pm_user="$BM_PM_USER" \
--pm_password="$BM_PM_PASS" \
"$BM_HOSTNAME" \
"$BM_FLAVOR_CPU" \
"$BM_FLAVOR_RAM" \
"$BM_FLAVOR_ROOT_DISK" \
"$mac_1" \
| grep ' id ' | get_field 2 )
[ $? -eq 0 ] || [ "$id" ] || die $LINENO "Error adding baremetal node"
if [ -n "$mac_2" ]; then
id2=$(nova baremetal-interface-add "$id" "$mac_2" )
[ $? -eq 0 ] || [ "$id2" ] || die $LINENO "Error adding interface to barmetal node $id"
fi
}
# Restore xtrace
$XTRACE
# Tell emacs to use shell-script-mode
## Local variables:
## mode: shell-script
## End: