Currently when disable_fallocate is true it disables calling the fallocate syscall, but it doesn't disable fallocate_reserve. This patch fixes this. This problem has caused functional tests to fail in our SAIOs, since SAIOs have disable_fallocate set but the fallocate_reserve space free checking was still being run creating 507 responses. This is thanks to the change in fallocate_reserve default changing from 0 to 1%. Because fallocate_reserve and disable_fallocate causes SAIO functional tests to fail a section called 'Known Issues' has been added to the SAIO developer documentation which includes a warning about using fallocate_reserve on SAIOs. Change-Id: I727bfb0861ea26fe2f16ad55f4d36ae088864d8f
21 KiB
SAIO - Swift All In One
Instructions for setting up a development VM
This section documents setting up a virtual machine for doing Swift development. The virtual machine will emulate running a four node Swift cluster. To begin:
- Get an Ubuntu 14.04 LTS server image or try something Fedora/CentOS.
- Create guest virtual machine from the image.
What's in a <your-user-name>
Much of the configuration described in this guide requires escalated
administrator (root
) privileges; however, we assume that
administrator logs in as an unprivileged user and can use
sudo
to run privileged commands.
Swift processes also run under a separate user and group, set by
configuration option, and referenced as
<your-user-name>:<your-group-name>
. The default
user is swift
, which may not exist on your system. These
instructions are intended to allow a developer to use his/her username
for <your-user-name>:<your-group-name>
.
Installing dependencies
On
apt
based systems:sudo apt-get update sudo apt-get install curl gcc memcached rsync sqlite3 xfsprogs \ git-core libffi-dev python-setuptools \ liberasurecode-dev sudo apt-get install python-coverage python-dev python-nose \ python-xattr python-eventlet \ python-greenlet python-pastedeploy \ python-netifaces python-pip python-dnspython \ python-mock
On
yum
based systems:sudo yum update sudo yum install curl gcc memcached rsync sqlite xfsprogs git-core \ libffi-devel xinetd liberasurecode-devel \ python-setuptools \ python-coverage python-devel python-nose \ pyxattr python-eventlet \ python-greenlet python-paste-deploy \ python-netifaces python-pip python-dns \ python-mock
Note: This installs necessary system dependencies and most of the python dependencies. Later in the process setuptools/distribute or pip will install and/or upgrade packages.
Next, choose either partition-section
or loopback-section
.
Using a partition for storage
If you are going to use a separate partition for Swift data, be sure to add another device when creating the VM, and follow these instructions:
Set up a single partition:
sudo fdisk /dev/sdb sudo mkfs.xfs /dev/sdb1
Edit
/etc/fstab
and add:/dev/sdb1 /mnt/sdb1 xfs noatime,nodiratime,nobarrier,logbufs=8 0 0
Create the mount point and the individualized links:
sudo mkdir /mnt/sdb1 sudo mount /mnt/sdb1 sudo mkdir /mnt/sdb1/1 /mnt/sdb1/2 /mnt/sdb1/3 /mnt/sdb1/4 sudo chown ${USER}:${USER} /mnt/sdb1/* sudo mkdir /srv for x in {1..4}; do sudo ln -s /mnt/sdb1/$x /srv/$x; done sudo mkdir -p /srv/1/node/sdb1 /srv/1/node/sdb5 \ /srv/2/node/sdb2 /srv/2/node/sdb6 \ /srv/3/node/sdb3 /srv/3/node/sdb7 \ /srv/4/node/sdb4 /srv/4/node/sdb8 \ /var/run/swift sudo chown -R ${USER}:${USER} /var/run/swift # **Make sure to include the trailing slash after /srv/$x/** for x in {1..4}; do sudo chown -R ${USER}:${USER} /srv/$x/; done
Note: We create the mount points and mount the storage disk under /mnt/sdb1. This disk will contain one directory per simulated swift node, each owned by the current swift user.
We then create symlinks to these directories under /srv. If the disk sdb is unmounted, files will not be written under /srv/*, because the symbolic link destination /mnt/sdb1/* will not exist. This prevents disk sync operations from writing to the root partition in the event a drive is unmounted.
Next, skip to
common-dev-section
.
Using a loopback device for storage
If you want to use a loopback device instead of another partition, follow these instructions:
Create the file for the loopback device:
sudo mkdir /srv sudo truncate -s 1GB /srv/swift-disk sudo mkfs.xfs /srv/swift-disk
Modify size specified in the
truncate
command to make a larger or smaller partition as needed.Edit /etc/fstab and add:
/srv/swift-disk /mnt/sdb1 xfs loop,noatime,nodiratime,nobarrier,logbufs=8 0 0
Create the mount point and the individualized links:
sudo mkdir /mnt/sdb1 sudo mount /mnt/sdb1 sudo mkdir /mnt/sdb1/1 /mnt/sdb1/2 /mnt/sdb1/3 /mnt/sdb1/4 sudo chown ${USER}:${USER} /mnt/sdb1/* for x in {1..4}; do sudo ln -s /mnt/sdb1/$x /srv/$x; done sudo mkdir -p /srv/1/node/sdb1 /srv/1/node/sdb5 \ /srv/2/node/sdb2 /srv/2/node/sdb6 \ /srv/3/node/sdb3 /srv/3/node/sdb7 \ /srv/4/node/sdb4 /srv/4/node/sdb8 \ /var/run/swift sudo chown -R ${USER}:${USER} /var/run/swift # **Make sure to include the trailing slash after /srv/$x/** for x in {1..4}; do sudo chown -R ${USER}:${USER} /srv/$x/; done
Note: We create the mount points and mount the loopback file under /mnt/sdb1. This file will contain one directory per simulated swift node, each owned by the current swift user.
We then create symlinks to these directories under /srv. If the loopback file is unmounted, files will not be written under /srv/*, because the symbolic link destination /mnt/sdb1/* will not exist. This prevents disk sync operations from writing to the root partition in the event a drive is unmounted.
Common Post-Device Setup
Add the following lines to /etc/rc.local
(before the
exit 0
):
mkdir -p /var/cache/swift /var/cache/swift2 /var/cache/swift3 /var/cache/swift4
chown <your-user-name>:<your-group-name> /var/cache/swift*
mkdir -p /var/run/swift
chown <your-user-name>:<your-group-name> /var/run/swift
Note that on some systems you might have to create
/etc/rc.local
.
On Fedora 19 or later, you need to place these in
/etc/rc.d/rc.local
.
Getting the code
Check out the python-swiftclient repo:
cd $HOME; git clone https://github.com/openstack/python-swiftclient.git
Build a development installation of python-swiftclient:
cd $HOME/python-swiftclient; sudo python setup.py develop; cd -
Ubuntu 12.04 users need to install python-swiftclient's dependencies before the installation of python-swiftclient. This is due to a bug in an older version of setup tools:
cd $HOME/python-swiftclient; sudo pip install -r requirements.txt; sudo python setup.py develop; cd -
Check out the swift repo:
git clone https://github.com/openstack/swift.git
Build a development installation of swift:
cd $HOME/swift; sudo pip install -r requirements.txt; sudo python setup.py develop; cd -
Fedora 19 or later users might have to perform the following if development installation of swift fails:
sudo pip install -U xattr
Install swift's test dependencies:
cd $HOME/swift; sudo pip install -r test-requirements.txt
Setting up rsync
Create
/etc/rsyncd.conf
:sudo cp $HOME/swift/doc/saio/rsyncd.conf /etc/ sudo sed -i "s/<your-user-name>/${USER}/" /etc/rsyncd.conf
Here is the default
rsyncd.conf
file contents maintained in the repo that is copied and fixed up above:/../saio/rsyncd.conf
On Ubuntu, edit the following line in
/etc/default/rsync
:RSYNC_ENABLE=true
On Fedora, edit the following line in
/etc/xinetd.d/rsync
:disable = no
One might have to create the above files to perform the edits.
On platforms with SELinux in
Enforcing
mode, either set toPermissive
:sudo setenforce Permissive
Or just allow rsync full access:
sudo setsebool -P rsync_full_access 1
Start the rsync daemon
On Ubuntu, run:
sudo service rsync restart
On Fedora, run:
sudo systemctl restart xinetd.service sudo systemctl enable rsyncd.service sudo systemctl start rsyncd.service
On other xinetd based systems simply run:
sudo service xinetd restart
Verify rsync is accepting connections for all servers:
rsync rsync://pub@localhost/
You should see the following output from the above command:
account6012 account6022 account6032 account6042 container6011 container6021 container6031 container6041 object6010 object6020 object6030 object6040
Starting memcached
On non-Ubuntu distros you need to ensure memcached is running:
sudo service memcached start
sudo chkconfig memcached on
or:
sudo systemctl enable memcached.service
sudo systemctl start memcached.service
The tempauth middleware stores tokens in memcached. If memcached is not running, tokens cannot be validated, and accessing Swift becomes impossible.
Optional: Setting up rsyslog for individual logging
Install the swift rsyslogd configuration:
sudo cp $HOME/swift/doc/saio/rsyslog.d/10-swift.conf /etc/rsyslog.d/
Be sure to review that conf file to determine if you want all the logs in one file vs. all the logs separated out, and if you want hourly logs for stats processing. For convenience, we provide its default contents below:
/../saio/rsyslog.d/10-swift.conf
Edit
/etc/rsyslog.conf
and make the following change (usually in the "GLOBAL DIRECTIVES" section):$PrivDropToGroup adm
If using hourly logs (see above) perform:
sudo mkdir -p /var/log/swift/hourly
Otherwise perform:
sudo mkdir -p /var/log/swift
Setup the logging directory and start syslog:
On Ubuntu:
sudo chown -R syslog.adm /var/log/swift sudo chmod -R g+w /var/log/swift sudo service rsyslog restart
On Fedora:
sudo chown -R root:adm /var/log/swift sudo chmod -R g+w /var/log/swift sudo systemctl restart rsyslog.service
Configuring each node
After performing the following steps, be sure to verify that Swift has access to resulting configuration files (sample configuration files are provided with all defaults in line-by-line comments).
Optionally remove an existing swift directory:
sudo rm -rf /etc/swift
Populate the
/etc/swift
directory itself:cd $HOME/swift/doc; sudo cp -r saio/swift /etc/swift; cd - sudo chown -R ${USER}:${USER} /etc/swift
Update
<your-user-name>
references in the Swift config files:find /etc/swift/ -name \*.conf | xargs sudo sed -i "s/<your-user-name>/${USER}/"
The contents of the configuration files provided by executing the above commands are as follows:
/etc/swift/swift.conf
/../saio/swift/swift.conf
/etc/swift/proxy-server.conf
/../saio/swift/proxy-server.conf
/etc/swift/object-expirer.conf
/../saio/swift/object-expirer.conf
/etc/swift/container-reconciler.conf
/../saio/swift/container-reconciler.conf
/etc/swift/container-sync-realms.conf
/../saio/swift/container-sync-realms.conf
/etc/swift/account-server/1.conf
/../saio/swift/account-server/1.conf
/etc/swift/container-server/1.conf
/../saio/swift/container-server/1.conf
/etc/swift/object-server/1.conf
/../saio/swift/object-server/1.conf
/etc/swift/account-server/2.conf
/../saio/swift/account-server/2.conf
/etc/swift/container-server/2.conf
/../saio/swift/container-server/2.conf
/etc/swift/object-server/2.conf
/../saio/swift/object-server/2.conf
/etc/swift/account-server/3.conf
/../saio/swift/account-server/3.conf
/etc/swift/container-server/3.conf
/../saio/swift/container-server/3.conf
/etc/swift/object-server/3.conf
/../saio/swift/object-server/3.conf
/etc/swift/account-server/4.conf
/../saio/swift/account-server/4.conf
/etc/swift/container-server/4.conf
/../saio/swift/container-server/4.conf
/etc/swift/object-server/4.conf
/../saio/swift/object-server/4.conf
Setting up scripts for running Swift
Copy the SAIO scripts for resetting the environment:
mkdir -p $HOME/bin cd $HOME/swift/doc; cp saio/bin/* $HOME/bin; cd - chmod +x $HOME/bin/*
Edit the
$HOME/bin/resetswift
scriptThe template
resetswift
script looks like the following:/../saio/bin/resetswift
If you are using a loopback device add an environment var to subsitute
/dev/sdb1
with/srv/swift-disk
:echo "export SAIO_BLOCK_DEVICE=/srv/swift-disk" >> $HOME/.bashrc
If you did not set up rsyslog for individual logging, remove the
find /var/log/swift...
line:sed -i "/find \/var\/log\/swift/d" $HOME/bin/resetswift
Install the sample configuration file for running tests:
cp $HOME/swift/test/sample.conf /etc/swift/test.conf
The template
test.conf
looks like the following:/../../test/sample.conf
Add an environment variable for running tests below:
echo "export SWIFT_TEST_CONFIG_FILE=/etc/swift/test.conf" >> $HOME/.bashrc
Be sure that your
PATH
includes thebin
directory:echo "export PATH=${PATH}:$HOME/bin" >> $HOME/.bashrc
Source the above environment variables into your current environment:
. $HOME/.bashrc
Construct the initial rings using the provided script:
remakerings
The
remakerings
script looks like the following:/../saio/bin/remakerings
You can expect the output from this command to produce the following. Note that 3 object rings are created in order to test storage policies and EC in the SAIO environment. The EC ring is the only one with all 8 devices. There are also two replication rings, one for 3x replication and another for 2x replication, but those rings only use 4 devices:
Device d0r1z1-127.0.0.1:6010R127.0.0.1:6010/sdb1_"" with 1.0 weight got id 0 Device d1r1z2-127.0.0.1:6020R127.0.0.1:6020/sdb2_"" with 1.0 weight got id 1 Device d2r1z3-127.0.0.1:6030R127.0.0.1:6030/sdb3_"" with 1.0 weight got id 2 Device d3r1z4-127.0.0.1:6040R127.0.0.1:6040/sdb4_"" with 1.0 weight got id 3 Reassigned 1024 (100.00%) partitions. Balance is now 0.00. Dispersion is now 0.00 Device d0r1z1-127.0.0.1:6010R127.0.0.1:6010/sdb1_"" with 1.0 weight got id 0 Device d1r1z2-127.0.0.1:6020R127.0.0.1:6020/sdb2_"" with 1.0 weight got id 1 Device d2r1z3-127.0.0.1:6030R127.0.0.1:6030/sdb3_"" with 1.0 weight got id 2 Device d3r1z4-127.0.0.1:6040R127.0.0.1:6040/sdb4_"" with 1.0 weight got id 3 Reassigned 1024 (100.00%) partitions. Balance is now 0.00. Dispersion is now 0.00 Device d0r1z1-127.0.0.1:6010R127.0.0.1:6010/sdb1_"" with 1.0 weight got id 0 Device d1r1z1-127.0.0.1:6010R127.0.0.1:6010/sdb5_"" with 1.0 weight got id 1 Device d2r1z2-127.0.0.1:6020R127.0.0.1:6020/sdb2_"" with 1.0 weight got id 2 Device d3r1z2-127.0.0.1:6020R127.0.0.1:6020/sdb6_"" with 1.0 weight got id 3 Device d4r1z3-127.0.0.1:6030R127.0.0.1:6030/sdb3_"" with 1.0 weight got id 4 Device d5r1z3-127.0.0.1:6030R127.0.0.1:6030/sdb7_"" with 1.0 weight got id 5 Device d6r1z4-127.0.0.1:6040R127.0.0.1:6040/sdb4_"" with 1.0 weight got id 6 Device d7r1z4-127.0.0.1:6040R127.0.0.1:6040/sdb8_"" with 1.0 weight got id 7 Reassigned 1024 (100.00%) partitions. Balance is now 0.00. Dispersion is now 0.00 Device d0r1z1-127.0.0.1:6011R127.0.0.1:6011/sdb1_"" with 1.0 weight got id 0 Device d1r1z2-127.0.0.1:6021R127.0.0.1:6021/sdb2_"" with 1.0 weight got id 1 Device d2r1z3-127.0.0.1:6031R127.0.0.1:6031/sdb3_"" with 1.0 weight got id 2 Device d3r1z4-127.0.0.1:6041R127.0.0.1:6041/sdb4_"" with 1.0 weight got id 3 Reassigned 1024 (100.00%) partitions. Balance is now 0.00. Dispersion is now 0.00 Device d0r1z1-127.0.0.1:6012R127.0.0.1:6012/sdb1_"" with 1.0 weight got id 0 Device d1r1z2-127.0.0.1:6022R127.0.0.1:6022/sdb2_"" with 1.0 weight got id 1 Device d2r1z3-127.0.0.1:6032R127.0.0.1:6032/sdb3_"" with 1.0 weight got id 2 Device d3r1z4-127.0.0.1:6042R127.0.0.1:6042/sdb4_"" with 1.0 weight got id 3 Reassigned 1024 (100.00%) partitions. Balance is now 0.00. Dispersion is now 0.00
Read more about Storage Policies and your SAIO
policies_saio
Verify the unit tests run:
$HOME/swift/.unittests
Note that the unit tests do not require any swift daemons running.
Start the "main" Swift daemon processes (proxy, account, container, and object):
startmain
(The "
Unable to increase file descriptor limit. Running as non-root?
" warnings are expected and ok.)The
startmain
script looks like the following:/../saio/bin/startmain
Get an
X-Storage-Url
andX-Auth-Token
:curl -v -H 'X-Storage-User: test:tester' -H 'X-Storage-Pass: testing' http://127.0.0.1:8080/auth/v1.0
Check that you can
GET
account:curl -v -H 'X-Auth-Token: <token-from-x-auth-token-above>' <url-from-x-storage-url-above>
Check that
swift
command provided by the python-swiftclient package works:swift -A http://127.0.0.1:8080/auth/v1.0 -U test:tester -K testing stat
Verify the functional tests run:
$HOME/swift/.functests
(Note: functional tests will first delete everything in the configured accounts.)
Verify the probe tests run:
$HOME/swift/.probetests
(Note: probe tests will reset your environment as they call
resetswift
for each test.)
Debugging Issues
If all doesn't go as planned, and tests fail, or you can't auth, or something doesn't work, here are some good starting places to look for issues:
- Everything is logged using system facilities -- usually in
/var/log/syslog
, but possibly in/var/log/messages
on e.g. Fedora -- so that is a good first place to look for errors (most likely python tracebacks). - Make sure all of the server processes are running. For the base functionality, the Proxy, Account, Container, and Object servers should be running.
- If one of the servers are not running, and no errors are logged to
syslog, it may be useful to try to start the server manually, for
example:
swift-object-server /etc/swift/object-server/1.conf
will start the object server. If there are problems not showing up in syslog, then you will likely see the traceback on startup. - If you need to, you can turn off syslog for unit tests. This can be
useful for environments where
/dev/log
is unavailable, or which cannot rate limit (unit tests generate a lot of logs very quickly). Open the fileSWIFT_TEST_CONFIG_FILE
points to, and change the value offake_syslog
toTrue
. - If you encounter a
401 Unauthorized
when following Step 12 where you check that you canGET
account, usesudo service memcached status
and check if memcache is running. If memcache is not running, start it usingsudo service memcached start
. Once memcache is running, rerunGET
account.
Known Issues
Listed here are some "gotcha's" that you may run into when using or testing your SAIO:
- fallocate_reserve - in most cases a SAIO doesn't have a very large XFS partition so having fallocate enabled and fallocate_reserve set can cause issues, specifically when trying to run the functional tests. For this reason fallocate has been turned off on the object-servers in the SAIO. If you want to play with the fallocate_reserve settings then know that functional tests will fail unless you change the max_file_size constraint to something more reasonable then the default (5G). Ideally you'd make it 1/4 of your XFS file system size so the tests can pass.