kuryr-kubernetes/devstack/local.conf.sample
Luis Tomas Bolivar 176b860083 Removing lbaasv2 related code
LBaaSv2 was deprecated in favor of Octavia. This patch is removing
the remaining gates for lbaasv2 and the specific code for handling
the services when haproxy was used

Implements: blueprint remove-lbaasv2

Change-Id: I601a62640838557697887aea1a778e67449f68a5
2019-01-22 10:14:09 +00:00

238 lines
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[[local|localrc]]
enable_plugin kuryr-kubernetes \
https://git.openstack.org/openstack/kuryr-kubernetes
# If you do not want stacking to clone new versions of the enabled services,
# like for example when you did local modifications and need to ./unstack.sh
# and ./stack.sh again, uncomment the following
# RECLONE="no"
# Log settings for better readability
LOGFILE=devstack.log
LOG_COLOR=False
# Credentials
ADMIN_PASSWORD=pass
DATABASE_PASSWORD=pass
RABBIT_PASSWORD=pass
SERVICE_PASSWORD=pass
SERVICE_TOKEN=pass
# Enable Keystone v3
IDENTITY_API_VERSION=3
# In pro of speed and being lightweight, we will be explicit in regards to
# which services we enable
ENABLED_SERVICES=""
# Neutron services
enable_service neutron
enable_service q-agt
enable_service q-dhcp
enable_service q-l3
enable_service q-svc
# VAR RUN PATH
# =============
# VAR_RUN_PATH=/var/run
# OCTAVIA
# Uncomment it to use L2 communication between loadbalancer and member pods
# KURYR_K8S_OCTAVIA_MEMBER_MODE=L2
# Octavia LBaaSv2
LIBS_FROM_GIT+=python-octaviaclient
enable_plugin octavia https://git.openstack.org/openstack/octavia
enable_service octavia
enable_service o-api
enable_service o-cw
enable_service o-hm
enable_service o-hk
## Octavia Deps
# Current Octavia image generation using diskimage-builder is broken ATM
# You can fetch a precreated qcow image from here [1] and set up octavia to
# use it by uncommenting the following lines.
# [1] https://tarballs.openstack.org/octavia/test-images/
# test-only-amphora-x64-haproxy-ubuntu-xenial.qcow2
# OCTAVIA_AMP_IMAGE_FILE=/tmp/test-only-amphora-x64-haproxy-ubuntu-xenial.qcow2
# OCTAVIA_AMP_IMAGE_SIZE=3
# OCTAVIA_AMP_IMAGE_NAME=test-only-amphora-x64-haproxy-ubuntu-xenial
### Image
### Barbican
enable_plugin barbican https://git.openstack.org/openstack/barbican
### Nova
enable_service n-api
enable_service n-api-meta
enable_service n-cpu
enable_service n-cond
enable_service n-sch
enable_service placement-api
enable_service placement-client
### Glance
enable_service g-api
enable_service g-reg
# Keystone
enable_service key
# dependencies
enable_service mysql
enable_service rabbit
# By default use all the services from the kuryr-kubernetes plugin
# Docker
# ======
# If you already have docker configured, running and with its socket writable
# by the stack user, you can omit the following line.
enable_plugin devstack-plugin-container https://git.openstack.org/openstack/devstack-plugin-container
# Etcd
# ====
# The default is for devstack to run etcd for you.
enable_service etcd3
# If you already have an etcd cluster configured and running, you can just
# comment out the lines enabling legacy_etcd and etcd3
# then uncomment and set the following line:
# KURYR_ETCD_CLIENT_URL="http://etcd_ip:etcd_client_port"
# Kubernetes
# ==========
#
# Kubernetes is run from the hyperkube docker image
# If you already have a Kubernetes deployment, you can use it instead and omit
# enabling the Kubernetes service (except Kubelet, which must be run by
# devstack so that it uses our development CNI driver.
#
# The default is, again, for devstack to run the Kubernetes services:
enable_service kubernetes-api
enable_service kubernetes-controller-manager
enable_service kubernetes-scheduler
# We use hyperkube to run the services. You can select the hyperkube image and/
# or version by uncommenting and setting the following ENV vars different
# to the following defaults:
# KURYR_HYPERKUBE_IMAGE="gcr.io/google_containers/hyperkube-amd64"
# KURYR_HYPERKUBE_VERSION="v1.6.2"
#
# If you have the 8080 port already bound to another service, you will need to
# have kubernetes API server bind to another port. In order to do that,
# uncomment and set a different port number in:
# KURYR_K8S_API_PORT="8080"
#
# If you want to test with a different range for the Cluster IPs uncomment and
# set the following ENV var to a different CIDR
# KURYR_K8S_CLUSTER_IP_RANGE="10.0.0.0/24"
#
# If, however, you are reusing an existing deployment, you should uncomment and
# set an ENV var so that the Kubelet devstack runs can find the API server:
# KURYR_K8S_API_URL="http (or https, if K8S is SSL/TLS enabled)://k8s_api_ip:k8s_api_port"
#
# If kubernetes API server is 'https' enabled, set path of the ssl cert files
# KURYR_K8S_API_CERT="/etc/kubernetes/certs/kubecfg.crt"
# KURYR_K8S_API_KEY="/etc/kubernetes/certs/kubecfg.key"
# KURYR_K8S_API_CACERT="/etc/kubernetes/certs/ca.crt"
# Kubelet
# =======
#
# Kubelet should almost invariably be run by devstack
enable_service kubelet
# You can specify a different location for the hyperkube binary that will be
# extracted from the hyperkube container into the Host filesystem:
# KURYR_HYPERKUBE_BINARY=/usr/local/bin/hyperkube
#
# NOTE: KURYR_HYPERKUBE_IMAGE, KURYR_HYPERKUBE_VERSION also affect which
# the selected binary for the Kubelet.
# Kuryr watcher
# =============
#
# Just like the Kubelet, you'll want to have the watcher enabled. It is the
# part of the codebase that connects to the Kubernetes API server to read the
# resource events and convert them to Neutron actions
enable_service kuryr-kubernetes
# Kuryr Daemon
# ============
#
# Kuryr runs CNI plugin in daemonized way - i.e. kubelet will run kuryr CNI
# driver and the driver will pass requests to Kuryr daemon running on the node,
# instead of processing them on its own. This limits the number of Kubernetes
# API requests (as only Kuryr Daemon will watch for new pod events) and should
# increase scalability in environments that often delete and create pods.
# Since Rocky release this is a default deployment configuration.
enable_service kuryr-daemon
# Containerized Kuryr
# ===================
#
# Kuryr can be installed on Kubernetes as a pair of Deployment
# (kuryr-controller) and DaemonSet (kuryr-cni). If you want DevStack to deploy
# Kuryr services as pods on Kubernetes uncomment next line.
# KURYR_K8S_CONTAINERIZED_DEPLOYMENT=True
# Kuryr POD VIF Driver
# ====================
#
# Set up the VIF Driver to be used. The default one is the neutron-vif, but if
# a nested deployment is desired, the corresponding driver need to be set,
# e.g.: nested-vlan or nested-macvlan
# KURYR_POD_VIF_DRIVER=neutron-vif
# Kuryr Enabled Handlers
# ======================
#
# By default, some Kuryr Handlers are set for DevStack installation. This can be
# further tweaked in order to enable additional ones such as Network Policy. If
# you want to add additional handlers those can be set here:
# KURYR_ENABLED_HANDLERS = vif,lb,lbaasspec
# Kuryr Ports Pools
# =================
#
# To speed up containers boot time the kuryr ports pool driver can be enabled
# by uncommenting the next line, so that neutron port resources are precreated
# and ready to be used by the pods when needed
# KURYR_USE_PORTS_POOLS=True
#
# By default the pool driver is noop, i.e., there is no pool. If pool
# optimizations want to be used you need to set it to 'neutron' for the
# baremetal case, or to 'nested' for the nested case
# KURYR_VIF_POOL_DRIVER=noop
#
# There are extra configuration options for the pools that can be set to decide
# on the minimum number of ports that should be ready to use at each pool, the
# maximum (0 to unset), and the batch size for the repopulation actions, i.e.,
# the number of neutron ports to create in bulk operations. Finally, the update
# frequency between actions over the pool can be set too
# KURYR_VIF_POOL_MIN=2
# KURYR_VIF_POOL_MAX=0
# KURYR_VIF_POOL_BATCH=5
# KURYR_VIF_POOL_UPDATE_FREQ=30
# Kuryr VIF Pool Manager
# ======================
#
# Uncomment the next line to enable the pool manager. Note it requires the
# nested-vlan pod vif driver, as well as the ports pool being enabled and
# configured with the nested driver
# KURYR_VIF_POOL_MANAGER=True
# Kuryr Multi-VIF Driver
# Uncomment the next line to enable the npwg multi-vif driver.
# Default value: noop
# KURYR_MULTI_VIF_DRIVER=npwg_multiple_interfaces
# Increase Octavia amphorae timeout so that the first LB amphora has time to
# build and boot
IMAGE_URLS+=",http://download.cirros-cloud.net/0.3.4/cirros-0.3.4-x86_64-disk.img"
[[post-config|$OCTAVIA_CONF]]
[controller_worker]
amp_active_retries=9999