Applying RST formatting conventions [1],[2] and [3] [1] http://docs.openstack.org/contributor-guide/rst-conv/gen-guidelines.html [2] http://docs.openstack.org/contributor-guide/rst-conv/inline-markups.html [3] http://docs.openstack.org/contributor-guide/rst-conv/lists.html Change-Id: I38b77a45d30ca0542058675dd1e8aba790c68567 Partially-implements: blueprint documentation-rework
5.6 KiB
Swift in Kolla
Overview
Kolla can deploy a full working Swift setup in either a all-in-one or multinode setup.
Prerequisites
Before running Swift we need to generate rings, which are binary compressed files that at a high level let the various Swift services know where data is in the cluster. We hope to automate this process in a future release.
Disks with a partition table (recommended)
Swift also expects block devices to be available for storage. To prepare a disk for use as Swift storage device, a special partition name and filesystem label need to be added. So that Kolla can detect those disks and mount for services.
Follow the example below to add 3 disks for an all-in-one demo setup.
# <WARNING ALL DATA ON DISK will be LOST!>
index=0
for d in sdc sdd sde; do
parted /dev/${d} -s -- mklabel gpt mkpart KOLLA_SWIFT_DATA 1 -1
sudo mkfs.xfs -f -L d${index} /dev/${d}1
(( index++ ))
done
For evaluation, loopback devices can be used in lieu of real disks:
index=0
for d in sdc sdd sde; do
free_device=$(losetup -f)
fallocate -l 1G /tmp/$d
losetup $free_device /tmp/$d
parted $free_device -s -- mklabel gpt mkpart KOLLA_SWIFT_DATA 1 -1
sudo mkfs.xfs -f -L d${index} ${free_device}p1
(( index++ ))
done
Disks without a partition table
Kolla also supports unpartitioned disk (filesystem on
/dev/sdc
instead of /dev/sdc1
) detection
purely based on filesystem label. This is generally not a recommended
practice but can be helpful for Kolla to take over Swift deployment
already using disk like this.
Given hard disks with labels swd1, swd2, swd3, use the following
settings in ansible/roles/swift/defaults/main.yml
.
swift_devices_match_mode: "prefix"
swift_devices_name: "swd"
Rings
Run following commands locally to generate Rings for all-in-one demo setup. The commands work with disks with partition table example listed above. Please modify accordingly if your setup is different.
export KOLLA_INTERNAL_ADDRESS=1.2.3.4
export KOLLA_BASE_DISTRO=centos
export KOLLA_INSTALL_TYPE=binary
# Object ring
docker run \
-v /etc/kolla/config/swift/:/etc/kolla/config/swift/ \
kollaglue/${KOLLA_BASE_DISTRO}-${KOLLA_INSTALL_TYPE}-swift-base \
swift-ring-builder /etc/kolla/config/swift/object.builder create 10 3 1
for i in {0..2}; do
docker run \
-v /etc/kolla/config/swift/:/etc/kolla/config/swift/ \
kollaglue/${KOLLA_BASE_DISTRO}-${KOLLA_INSTALL_TYPE}-swift-base swift-ring-builder \
/etc/kolla/config/swift/object.builder add r1z1-${KOLLA_INTERNAL_ADDRESS}:6000/d${i} 1;
done
# Account ring
docker run \
-v /etc/kolla/config/swift/:/etc/kolla/config/swift/ \
kollaglue/${KOLLA_BASE_DISTRO}-${KOLLA_INSTALL_TYPE}-swift-base \
swift-ring-builder /etc/kolla/config/swift/account.builder create 10 3 1
for i in {0..2}; do
docker run \
-v /etc/kolla/config/swift/:/etc/kolla/config/swift/ \
kollaglue/${KOLLA_BASE_DISTRO}-${KOLLA_INSTALL_TYPE}-swift-base swift-ring-builder \
/etc/kolla/config/swift/account.builder add r1z1-${KOLLA_INTERNAL_ADDRESS}:6001/d${i} 1;
done
# Container ring
docker run \
-v /etc/kolla/config/swift/:/etc/kolla/config/swift/ \
kollaglue/${KOLLA_BASE_DISTRO}-${KOLLA_INSTALL_TYPE}-swift-base \
swift-ring-builder /etc/kolla/config/swift/container.builder create 10 3 1
for i in {0..2}; do
docker run \
-v /etc/kolla/config/swift/:/etc/kolla/config/swift/ \
kollaglue/${KOLLA_BASE_DISTRO}-${KOLLA_INSTALL_TYPE}-swift-base swift-ring-builder \
/etc/kolla/config/swift/container.builder add r1z1-${KOLLA_INTERNAL_ADDRESS}:6002/d${i} 1;
done
for ring in object account container; do
docker run \
-v /etc/kolla/config/swift/:/etc/kolla/config/swift/ \
kollaglue/${KOLLA_BASE_DISTRO}-${KOLLA_INSTALL_TYPE}-swift-base swift-ring-builder \
/etc/kolla/config/swift/${ring}.builder rebalance;
done
Similar commands can be used for multinode, you will just need to run the add step for each IP in the cluster.
For more info, see http://docs.openstack.org/kilo/install-guide/install/apt/content/swift-initial-rings.html
Deploying
Enable Swift in /etc/kolla/globals.yml
:
enable_swift : "yes"
Once the rings are in place, deploying Swift is the same as any other Kolla Ansible service. Below is the minimal command to bring up Swift all-in-one, and it's dependencies:
ansible-playbook \
-i ansible/inventory/all-in-one \
-e @/etc/kolla/globals.yml \
-e @etc/kolla/passwords.yml \
ansible/site.yml \
--tags=rabbitmq,mariadb,keystone,swift
Validation
A very basic smoke test:
$ swift stat
Account: AUTH_4c19d363b9cf432a80e34f06b1fa5749
Containers: 1
Objects: 0
Bytes: 0
Containers in policy "policy-0": 1
Objects in policy "policy-0": 0
Bytes in policy "policy-0": 0
X-Account-Project-Domain-Id: default
X-Timestamp: 1440168098.28319
X-Trans-Id: txf5a62b7d7fc541f087703-0055d73be7
Content-Type: text/plain; charset=utf-8
Accept-Ranges: bytes
$ swift upload mycontainer README.rst
README.md
$ swift list
mycontainer
$ swift download mycontainer README.md
README.md [auth 0.248s, headers 0.939s, total 0.939s, 0.006 MB/s]