{{/*
# ================================================================================
# Copyright (c) 2018 Cisco Systems. 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.
# ============LICENSE_END=========================================================
*/}}

infrastructure :
  # infrastructure used for pnda deployment
  # Valid Values are:
  #   - aws
  #   - openstack
  #   - existing-machines
  #   - terraform
  INFRASTRUCTURE_TYPE: openstack

  # The user name to use when logging into the  instances
  # For aws target user-name allowed :
  #            Target         AWS         Openstack
  #
  #   Distro   Redhat:       ec2-user     cloud-user
  #            CentOS:       centos       cloud-user
  OS_USER: {{ .Values.pnda.osUser }}

  # CIDR specifying the address range for the network containing all PNDA instances
  networkCidr: {{ .Values.pnda.networkCidr }}

openstack_parameters:
  # KEYSTONE_USER: Username for the openstack clients to use
  KEYSTONE_USER: {{ .Values.openstack.keystoneUser }}

  # KEYSTONE_PASSWORD: Password for the openstack clients to use
  KEYSTONE_PASSWORD: {{ .Values.openstack.keystonePassword }}

  # KEYSTONE_TENANT: Name of the tenant / project in the openstack environment. The
  # PNDA stack will be created in this project.
  KEYSTONE_TENANT: {{ .Values.openstack.keystoneTenant }}

  # KEYSTONE_AUTH_URL: Keystone authentication URL. The Openstack console provides this
  # under the Access & Security section.
  KEYSTONE_AUTH_URL: {{ .Values.openstack.keystoneAuthUrl }}

  # KEYSTONE_AUTH_VERSION: Keystone authentication version. The Openstack console provides this
  # under the Access & Security section.
  KEYSTONE_AUTH_VERSION: '2'

  # KEYSTONE_REGION_NAME: Keystone region. The Openstack console provides this
  # under the Access & Security section.
  KEYSTONE_REGION_NAME: {{ .Values.openstack.keystoneRegion }}

  # imageId: Base image to use for the created instances. It should be created by
  # following the guide in https://github.com/pndaproject/pnda-dib-elements
  #
  imageId: {{ .Values.openstack.imageId }}

  # CIDR specifying the address range that may access the created PNDA instances
  whitelistSshAccess: {{ .Values.openstack.whitelistSshAccess }}

  # UUID of the public network in openstack to use
  externalPublicNetworkId: {{ .Values.openstack.publicNetworkId }}

  useExistingNetwork: {{ .Values.openstack.useExistingNetwork }}

  existingNetworkId: {{ .Values.openstack.existingNetworkId }}

  existingSubnetId: {{ .Values.openstack.existingSubnetId }}

  # CIDR specifying the address range for the public subnet (bastion access)
  publicSubnetCidr: {{ .Values.openstack.publicSubnetCidr }}

platform_salt:
  # Use either PLATFORM_GIT_REPO_URI + PLATFORM_GIT_BRANCH or PLATFORM_SALT_LOCAL
  PLATFORM_SALT_LOCAL: /platform-salt

pnda_application_repo:
  # Type of storage to use for PNDA application packages
  #   s3     - AWS S3. Also set PNDA_APPS_CONTAINER, PNDA_APPS_FOLDER, PNDA_APPS_REGION, PNDA_APPS_ACCESS_KEY_ID, PNDA_APPS_SECRET_ACCESS_KEY
  #   sshfs  - standard file system. Also set PR_FS_LOCATION_PATH, PR_SSHFS_USER, PR_SSHFS_HOST, PR_SSHFS_PATH and PR_SSHFS_KEY
  #   local  - local filesystem on the package repository service server. Also set PR_FS_LOCATION_PATH.
  #   swift  - Openstack swift. Also set PNDA_APPS_CONTAINER and PNDA_APPS_FOLDER
  PR_FS_TYPE: {{ .Values.pnda.apps.fsType }}

  # S3 container to use for PNDA application packages
  PNDA_APPS_CONTAINER: {{ .Values.pnda.apps.s3container }}

  # Name of folder within PNDA_APPS_CONTAINER that contains the PNDA application packages
  PNDA_APPS_FOLDER: {{ .Values.pnda.apps.s3folder }}

  # AWS region that contains the PNDA_APPS_CONTAINER bucket
  PNDA_APPS_REGION: {{ .Values.pnda.apps.s3region }}

  # API key for s3 access to PNDA_APPS_CONTAINER. These keys are stored on the cloud instances so should be restricted
  # only allow access to the PNDA_APPS_CONTAINER bucket
  PNDA_APPS_ACCESS_KEY_ID: {{ .Values.pnda.apps.s3keyid }}
  PNDA_APPS_SECRET_ACCESS_KEY: {{ .Values.pnda.apps.s3secret }}

  # Path on file system if PR_FS_TYPE is 'local' or 'sshfs'
  PR_FS_LOCATION_PATH: {{ .Values.pnda.apps.fsLocation | print "/opt/pnda/packages" }}

  # SSH accessed file system to use for PNDA application packages
  PR_SSHFS_USER: centos
  PR_SSHFS_HOST: 127.0.0.1
  PR_SSHFS_PATH: /mnt/packages
  PR_SSHFS_KEY: key.pem

pnda_data_archive:
  # S3 container to use for archiving PNDA datasets
  PNDA_ARCHIVE_CONTAINER: pnda-archive

  # AWS region that contains the PNDA_ARCHIVE_CONTAINER bucket
  PNDA_ARCHIVE_REGION: eu-west-1

  # API key for s3 access to PNDA_ARCHIVE_CONTAINER. These keys are stored on the cloud instances so should be restricted
  # only allow access to the PNDA_ARCHIVE_CONTAINER bucket
  PNDA_ARCHIVE_ACCESS_KEY_ID: xxxx
  PNDA_ARCHIVE_SECRET_ACCESS_KEY: xxxx

ntp:
  # Optional ntp servers. Use this if the standard NTP servers on the Internet cannot be reached
  # and a local NTP server has been configured. PNDA will not work without NTP.
  # example format: 'xxx.ntp.org'
  #For REJECT_OUTBOUND="YES" then NTP server/s must.
  NTP_SERVERS:
    - {{ .Values.pnda.ntp }}

dns:
  # External DNS servers list
  nameServers:
    - {{ .Values.pnda.nameserver }}

mirrors:
  # Mirror of resources required for provisioning PNDA, see PNDA guide for instructions on how to set this up
  PNDA_MIRROR:

hadoop:
  # Hadoop distribution to install
  # Valid values are:
  # - HDP
  # - CDH
  HADOOP_DISTRO: HDP
  # Spark version to enable for oozie (HDP only)
  # Valid values are:
  # - 1
  # - 2
  OOZIE_SPARK_VERSION: 1

connectivity:
  # The IP address of the client that created PNDA
  CLIENT_IP: {{ .Values.pnda.outboundCidr }}
  # Add online repositories for yum, apt-get, pip, etc alongside PNDA mirror
  ADD_ONLINE_REPOS: "YES"
  # RPM Extras repository to enable when ADD_ONLINE_REPOS=YES
  RPM_EXTRAS_REPO_NAME: rhui-REGION-rhel-server-optional
  # RPM Optional repository to enable when ADD_ONLINE_REPOS=YES
  RPM_OPTIONAL_REPO_NAME: rhui-REGION-rhel-server-extras

network_interfaces:
  PNDA_INTERNAL_NETWORK: eth0
  PNDA_INGEST_NETWORK: eth0

cli:
  # Maximum number of outbound connections that the CLI will attempt to open at once
  # Consider increasing this when creating clusters with more than 100 nodes to speed
  # up PNDA creation time.
  MAX_SIMULTANEOUS_OUTBOUND_CONNECTIONS: 100

security:
  # The path were to find the security material (certificate/key).
  # The directory should be structured as defined in this' repo's directory structure with the same name.
  # The security material should conform to the guidelines defined in the README.md file in
  # the containing sub directory.
  SECURITY_MATERIAL_PATH: ./platform-certificates/

  # Address of LDAP server
  # All instances will have PAM configured to authenticate with this LDAP server if set
  # Leave blank to disable LDAP-PAM integration
  LDAP_SERVER: ''

  # Base DN for LDAP server to use when enabling client PAM integration with LDAP
  LDAP_BASE_DN: dc=nodomain

features:
  # Include experimental features.
  # Set to "NO", omit setting or omit features section entirely to turn off experimental features
  EXPERIMENTAL_FEATURES: "NO"

domain:
  # Top-level domain
  TOP_LEVEL_DOMAIN: pnda.local

  # Second-level domain
  SECOND_LEVEL_DOMAIN: dc1

dataset_compaction:
  # Enable/Disable compaction on datasets.
  # "YES" to enable.
  # "NO" to disable.
  COMPACTION: "NO"
  # If compaction is enabled, PATTERN sets the frequency of compaction.
  # H - hourly compaction.
  # d - daily compaction.
  # M - monthly compaction.
  # Y - yearly compaction.
  PATTERN: d

datanode:
  # DATANODE_VOLUME_COUNT sets the number of data volumes on each hadoop datanode
  DATA_VOLUME_COUNT: 1
  # DEVICE_ROOT sets the disk device root name
  DEVICE_ROOT: xvdb

kafka:
  # DATA_DIRS sets the data dirs on kafka node
  KAFKA_DATA_DIRS:
    - /var/kafka-logs
  # DEVICE_ROOT sets the disk device root name
  KAFKA_DEVICE_ROOT: xvdb

generic:
  #GENERIC_DEVICE_ROOT sets the disk device root name for generic instances.
  GENERIC_DEVICE_ROOT: xvdb