swift/doc/source/deployment_guide.rst
Chuck Thier ae8470131e Pool memcache connections
This creates a pool to each memcache server so that connections will not
grow without bound.  This also adds a proxy config
"max_memcache_connections" which can control how many connections are
available in the pool.

A side effect of the change is that we had to change the memcache calls
that used noreply, and instead wait for the result of the request.
Leaving with noreply could cause a race condition (specifically in
account auto create), due to one request calling `memcache.del(key)` and
then `memcache.get(key)` with a different pooled connection.  If the
delete didn't complete fast enough, the get would return the old value
before it was deleted, and thus believe that the account was not
autocreated.

ClaysMindExploded
DocImpact
Change-Id: I350720b7bba29e1453894d3d4105ac1ea232595b
2013-10-02 02:08:04 +00:00

56 KiB

Deployment Guide

Hardware Considerations

Swift is designed to run on commodity hardware. At Rackspace, our storage servers are currently running fairly generic 4U servers with 24 2T SATA drives and 8 cores of processing power. RAID on the storage drives is not required and not recommended. Swift's disk usage pattern is the worst case possible for RAID, and performance degrades very quickly using RAID 5 or 6.

Deployment Options

The swift services run completely autonomously, which provides for a lot of flexibility when architecting the hardware deployment for swift. The 4 main services are:

  1. Proxy Services
  2. Object Services
  3. Container Services
  4. Account Services

The Proxy Services are more CPU and network I/O intensive. If you are using 10g networking to the proxy, or are terminating SSL traffic at the proxy, greater CPU power will be required.

The Object, Container, and Account Services (Storage Services) are more disk and network I/O intensive.

The easiest deployment is to install all services on each server. There is nothing wrong with doing this, as it scales each service out horizontally.

At Rackspace, we put the Proxy Services on their own servers and all of the Storage Services on the same server. This allows us to send 10g networking to the proxy and 1g to the storage servers, and keep load balancing to the proxies more manageable. Storage Services scale out horizontally as storage servers are added, and we can scale overall API throughput by adding more Proxies.

If you need more throughput to either Account or Container Services, they may each be deployed to their own servers. For example you might use faster (but more expensive) SAS or even SSD drives to get faster disk I/O to the databases.

Load balancing and network design is left as an exercise to the reader, but this is a very important part of the cluster, so time should be spent designing the network for a Swift cluster.

Web Front End Options

Swift comes with an integral web front end. However, it can also be deployed as a request processor of an Apache2 using mod_wsgi as described in Apache Deployment Guide <apache_deployment_guide>.

Preparing the Ring

The first step is to determine the number of partitions that will be in the ring. We recommend that there be a minimum of 100 partitions per drive to insure even distribution across the drives. A good starting point might be to figure out the maximum number of drives the cluster will contain, and then multiply by 100, and then round up to the nearest power of two.

For example, imagine we are building a cluster that will have no more than 5,000 drives. That would mean that we would have a total number of 500,000 partitions, which is pretty close to 2^19, rounded up.

It is also a good idea to keep the number of partitions small (relatively). The more partitions there are, the more work that has to be done by the replicators and other backend jobs and the more memory the rings consume in process. The goal is to find a good balance between small rings and maximum cluster size.

The next step is to determine the number of replicas to store of the data. Currently it is recommended to use 3 (as this is the only value that has been tested). The higher the number, the more storage that is used but the less likely you are to lose data.

It is also important to determine how many zones the cluster should have. It is recommended to start with a minimum of 5 zones. You can start with fewer, but our testing has shown that having at least five zones is optimal when failures occur. We also recommend trying to configure the zones at as high a level as possible to create as much isolation as possible. Some example things to take into consideration can include physical location, power availability, and network connectivity. For example, in a small cluster you might decide to split the zones up by cabinet, with each cabinet having its own power and network connectivity. The zone concept is very abstract, so feel free to use it in whatever way best isolates your data from failure. Zones are referenced by number, beginning with 1.

You can now start building the ring with:

swift-ring-builder <builder_file> create <part_power> <replicas> <min_part_hours>

This will start the ring build process creating the <builder_file> with 2^<part_power> partitions. <min_part_hours> is the time in hours before a specific partition can be moved in succession (24 is a good value for this).

Devices can be added to the ring with:

swift-ring-builder <builder_file> add z<zone>-<ip>:<port>/<device_name>_<meta> <weight>

This will add a device to the ring where <builder_file> is the name of the builder file that was created previously, <zone> is the number of the zone this device is in, <ip> is the ip address of the server the device is in, <port> is the port number that the server is running on, <device_name> is the name of the device on the server (for example: sdb1), <meta> is a string of metadata for the device (optional), and <weight> is a float weight that determines how many partitions are put on the device relative to the rest of the devices in the cluster (a good starting point is 100.0 x TB on the drive). Add each device that will be initially in the cluster.

Once all of the devices are added to the ring, run:

swift-ring-builder <builder_file> rebalance

This will distribute the partitions across the drives in the ring. It is important whenever making changes to the ring to make all the changes required before running rebalance. This will ensure that the ring stays as balanced as possible, and as few partitions are moved as possible.

The above process should be done to make a ring for each storage service (Account, Container and Object). The builder files will be needed in future changes to the ring, so it is very important that these be kept and backed up. The resulting .tar.gz ring file should be pushed to all of the servers in the cluster. For more information about building rings, running swift-ring-builder with no options will display help text with available commands and options. More information on how the ring works internally can be found in the Ring Overview <overview_ring>.

General Service Configuration

Most Swift services fall into two categories. Swift's wsgi servers and background daemons.

For more information specific to the configuration of Swift's wsgi servers with paste deploy see general-server-configuration

Configuration for servers and daemons can be expressed together in the same file for each type of server, or separately. If a required section for the service trying to start is missing there will be an error. The sections not used by the service are ignored.

Consider the example of an object storage node. By convention configuration for the object-server, object-updater, object-replicator, and object-auditor exist in a single file /etc/swift/object-server.conf:

[DEFAULT]

[pipeline:main]
pipeline = object-server

[app:object-server]
use = egg:swift#object

[object-replicator]
reclaim_age = 259200

[object-updater]

[object-auditor]

Swift services expect a configuration path as the first argument:

$ swift-object-auditor 
Usage: swift-object-auditor CONFIG [options]

Error: missing config path argument

If you omit the object-auditor section this file could not be used as the configuration path when starting the swift-object-auditor daemon:

$ swift-object-auditor /etc/swift/object-server.conf 
Unable to find object-auditor config section in /etc/swift/object-server.conf

If the configuration path is a directory instead of a file all of the files in the directory with the file extension ".conf" will be combined to generate the configuration object which is delivered to the Swift service. This is referred to generally as "directory based configuration".

Directory based configuration leverages ConfigParser's native multi-file support. Files ending in ".conf" in the given directory are parsed in lexicographical order. Filenames starting with '.' are ignored. A mixture of file and directory configuration paths is not supported - if the configuration path is a file only that file will be parsed.

The swift service management tool swift-init has adopted the convention of looking for /etc/swift/{type}-server.conf.d/ if the file /etc/swift/{type}-server.conf file does not exist.

When using directory based configuration, if the same option under the same section appears more than once in different files, the last value parsed is said to override previous occurrences. You can ensure proper override precedence by prefixing the files in the configuration directory with numerical values.:

/etc/swift/
    default.base
    object-server.conf.d/
        000_default.conf -> ../default.base
        001_default-override.conf
        010_server.conf
        020_replicator.conf
        030_updater.conf
        040_auditor.conf

You can inspect the resulting combined configuration object using the swift-config command line tool

General Server Configuration

Swift uses paste.deploy (http://pythonpaste.org/deploy/) to manage server configurations.

Default configuration options are set in the [DEFAULT] section, and any options specified there can be overridden in any of the other sections BUT ONLY BY USING THE SYNTAX set option_name = value. This is the unfortunate way paste.deploy works and I'll try to explain it in full.

First, here's an example paste.deploy configuration file:

[DEFAULT]
name1 = globalvalue
name2 = globalvalue
name3 = globalvalue
set name4 = globalvalue

[pipeline:main]
pipeline = myapp

[app:myapp]
use = egg:mypkg#myapp
name2 = localvalue
set name3 = localvalue
set name5 = localvalue
name6 = localvalue

The resulting configuration that myapp receives is:

global {'__file__': '/etc/mypkg/wsgi.conf', 'here': '/etc/mypkg',
        'name1': 'globalvalue',
        'name2': 'globalvalue',
        'name3': 'localvalue',
        'name4': 'globalvalue',
        'name5': 'localvalue',
        'set name4': 'globalvalue'}
local {'name6': 'localvalue'}

So, name1 got the global value which is fine since it's only in the DEFAULT section anyway.

name2 got the global value from DEFAULT even though it appears to be overridden in the app:myapp subsection. This is just the unfortunate way paste.deploy works (at least at the time of this writing.)

name3 got the local value from the app:myapp subsection because it is using the special paste.deploy syntax of set option_name = value. So, if you want a default value for most app/filters but want to overridde it in one subsection, this is how you do it.

name4 got the global value from DEFAULT since it's only in that section anyway. But, since we used the set syntax in the DEFAULT section even though we shouldn't, notice we also got a set name4 variable. Weird, but probably not harmful.

name5 got the local value from the app:myapp subsection since it's only there anyway, but notice that it is in the global configuration and not the local configuration. This is because we used the set syntax to set the value. Again, weird, but not harmful since Swift just treats the two sets of configuration values as one set anyway.

name6 got the local value from app:myapp subsection since it's only there, and since we didn't use the set syntax, it's only in the local configuration and not the global one. Though, as indicated above, there is no special distinction with Swift.

That's quite an explanation for something that should be so much simpler, but it might be important to know how paste.deploy interprets configuration files. The main rule to remember when working with Swift configuration files is:

Note

Use the set option_name = value syntax in subsections if the option is also set in the [DEFAULT] section. Don't get in the habit of always using the set syntax or you'll probably mess up your non-paste.deploy configuration files.

Object Server Configuration

An Example Object Server configuration can be found at etc/object-server.conf-sample in the source code repository.

The following configuration options are available:

[DEFAULT]

Option Default Description
swift_dir /etc/swift Swift configuration directory
devices /srv/node Parent directory of where devices are mounted

mount_check

true

Whether or not check if the devices are mounted to prevent accidentally writing to the root device

bind_ip 0.0.0.0 IP Address for server to bind to
bind_port 6000 Port for server to bind to
bind_timeout 30 Seconds to attempt bind before giving up

workers

auto

Override the number of pre-forked workers that will accept connections. If set it should be an integer, zero means no fork. If unset, it will try to default to the number of effective cpu cores and fallback to one. Increasing the number of workers may reduce the possibility of slow file system operations in one request from negatively impacting other requests, but may not be as efficient as tuning threads_per_disk <object-server-options>

max_clients

1024

Maximum number of clients one worker can process simultaneously (it will actually accept(2) N + 1). Setting this to one (1) will only handle one request at a time, without accepting another request concurrently.

disable_fallocate

false

Disable "fast fail" fallocate checks if the underlying filesystem does not support it.

log_custom_handlers

None

Comma-separated list of functions to call to setup custom log handlers.

eventlet_debug false If true, turn on debug logging for eventlet

fallocate_reserve

0

You can set fallocate_reserve to the number of bytes you'd like fallocate to reserve, whether there is space for the given file size or not. This is useful for systems that behave badly when they completely run out of space; you can make the services pretend they're out of space early.

[object-server]

Option Default Description

use

paste.deploy entry point for the object server. For most cases, this should be egg:swift#object.

set log_name object-server Label used when logging
set log_facility LOG_LOCAL0 Syslog log facility
set log_level INFO Logging level
set log_requests True Whether or not to log each request
user swift User to run as
node_timeout 3 Request timeout to external services
conn_timeout 0.5 Connection timeout to external services

network_chunk_size

65536

Size of chunks to read/write over the network

disk_chunk_size 65536 Size of chunks to read/write to disk
max_upload_time 86400 Maximum time allowed to upload an object

slow

0

If > 0, Minimum time in seconds for a PUT or DELETE request to complete

mb_per_sync 512 On PUT requests, sync file every n MB
keep_cache_size 5242880 Largest object size to keep in buffer cache

keep_cache_private

false

Allow non-public objects to stay in kernel's buffer cache

threads_per_disk

0

Size of the per-disk thread pool used for performing disk I/O. The default of 0 means to not use a per-disk thread pool. It is recommended to keep this value small, as large values can result in high read latencies due to large queue depths. A good starting point is 4 threads per disk.

[object-replicator]

Option Default Description
log_name object-replicator Label used when logging
log_facility LOG_LOCAL0 Syslog log facility
log_level INFO Logging level

daemonize

yes

Whether or not to run replication as a daemon

run_pause

30

Time in seconds to wait between replication passes

concurrency 1 Number of replication workers to spawn

timeout

5

Timeout value sent to rsync --timeout and --contimeout options

stats_interval

3600

Interval in seconds between logging replication statistics

reclaim_age

604800

Time elapsed in seconds before an object can be reclaimed

handoffs_first

false

If set to True, partitions that are not supposed to be on the node will be replicated first. The default setting should not be changed, except for extreme situations.

handoff_delete

auto

By default handoff partitions will be removed when it has successfully replicated to all the cannonical nodes. If set to an integer n, it will remove the partition if it is successfully replicated to n nodes. The default setting should not be changed, except for extremem situations.

[object-updater]

Option Default Description
log_name object-updater Label used when logging
log_facility LOG_LOCAL0 Syslog log facility
log_level INFO Logging level
interval 300 Minimum time for a pass to take
concurrency 1 Number of updater workers to spawn
node_timeout 10 Request timeout to external services
conn_timeout 0.5 Connection timeout to external services
slowdown 0.01 Time in seconds to wait between objects

[object-auditor]

Option Default Description
log_name object-auditor Label used when logging
log_facility LOG_LOCAL0 Syslog log facility
log_level INFO Logging level
log_time 3600 Frequency of status logs in seconds.

files_per_second

20

Maximum files audited per second. Should be tuned according to individual system specs. 0 is unlimited.

bytes_per_second

10000000

Maximum bytes audited per second. Should be tuned according to individual system specs. 0 is unlimited.

Container Server Configuration

An example Container Server configuration can be found at etc/container-server.conf-sample in the source code repository.

The following configuration options are available:

[DEFAULT]

Option Default Description
swift_dir /etc/swift Swift configuration directory
devices /srv/node Parent directory of where devices are mounted

mount_check

true

Whether or not check if the devices are mounted to prevent accidentally writing to the root device

bind_ip 0.0.0.0 IP Address for server to bind to
bind_port 6001 Port for server to bind to
bind_timeout 30 Seconds to attempt bind before giving up

workers

auto

Override the number of pre-forked workers that will accept connections. If set it should be an integer, zero means no fork. If unset, it will try to default to the number of effective cpu cores and fallback to one. Increasing the number of workers may reduce the possibility of slow file system operations in one request from negatively impacting other requests. See general-service-tuning

max_clients

1024

Maximum number of clients one worker can process simultaneously (it will actually accept(2) N + 1). Setting this to one (1) will only handle one request at a time, without accepting another request concurrently.

user swift User to run as

disable_fallocate

false

Disable "fast fail" fallocate checks if the underlying filesystem does not support it.

log_custom_handlers

None

Comma-separated list of functions to call to setup custom log handlers.

eventlet_debug false If true, turn on debug logging for eventlet

fallocate_reserve

0

You can set fallocate_reserve to the number of bytes you'd like fallocate to reserve, whether there is space for the given file size or not. This is useful for systems that behave badly when they completely run out of space; you can make the services pretend they're out of space early.

[container-server]

Option Default Description

use

paste.deploy entry point for the container server. For most cases, this should be egg:swift#container.

set log_name container-server Label used when logging
set log_facility LOG_LOCAL0 Syslog log facility
set log_level INFO Logging level
node_timeout 3 Request timeout to external services
conn_timeout 0.5 Connection timeout to external services
allow_versions false Enable/Disable object versioning feature

[container-replicator]

Option Default Description
log_name container-replicator Label used when logging
log_facility LOG_LOCAL0 Syslog log facility

log_level per_diff

INFO 1000

Logging level

concurrency

8

Number of replication workers to spawn

run_pause

30

Time in seconds to wait between replication passes

node_timeout 10 Request timeout to external services

conn_timeout

0.5

Connection timeout to external services

reclaim_age

604800

Time elapsed in seconds before a container can be reclaimed

[container-updater]

Option Default Description
log_name container-updater Label used when logging
log_facility LOG_LOCAL0 Syslog log facility
log_level INFO Logging level
interval 300 Minimum time for a pass to take
concurrency 4 Number of updater workers to spawn

node_timeout

3

Request timeout to external services

conn_timeout

0.5

Connection timeout to external services

slowdown

0.01

Time in seconds to wait between containers

account_suppression_time

60

Seconds to suppress updating an account that has generated an error (timeout, not yet found, etc.)

[container-auditor]

Option Default Description
log_name container-auditor Label used when logging
log_facility LOG_LOCAL0 Syslog log facility
log_level INFO Logging level
interval 1800 Minimum time for a pass to take

containers_per_second

200

Maximum containers audited per second. Should be tuned according to individual system specs. 0 is unlimited.

Account Server Configuration

An example Account Server configuration can be found at etc/account-server.conf-sample in the source code repository.

The following configuration options are available:

[DEFAULT]

Option Default Description
swift_dir /etc/swift Swift configuration directory
devices /srv/node Parent directory or where devices are mounted

mount_check

true

Whether or not check if the devices are mounted to prevent accidentally writing to the root device

bind_ip 0.0.0.0 IP Address for server to bind to
bind_port 6002 Port for server to bind to
bind_timeout 30 Seconds to attempt bind before giving up

workers

auto

Override the number of pre-forked workers that will accept connections. If set it should be an integer, zero means no fork. If unset, it will try to default to the number of effective cpu cores and fallback to one. Increasing the number of workers may reduce the possibility of slow file system operations in one request from negatively impacting other requests. See general-service-tuning

max_clients

1024

Maximum number of clients one worker can process simultaneously (it will actually accept(2) N + 1). Setting this to one (1) will only handle one request at a time, without accepting another request concurrently.

user swift User to run as

db_preallocation

off

If you don't mind the extra disk space usage in overhead, you can turn this on to preallocate disk space with SQLite databases to decrease fragmentation.

disable_fallocate

false

Disable "fast fail" fallocate checks if the underlying filesystem does not support it.

log_custom_handlers

None

Comma-separated list of functions to call to setup custom log handlers.

eventlet_debug false If true, turn on debug logging for eventlet

fallocate_reserve

0

You can set fallocate_reserve to the number of bytes you'd like fallocate to reserve, whether there is space for the given file size or not. This is useful for systems that behave badly when they completely run out of space; you can make the services pretend they're out of space early.

[account-server]

Option Default Description

use

Entry point for paste.deploy for the account server. For most cases, this should be egg:swift#account.

set log_name account-server Label used when logging
set log_facility LOG_LOCAL0 Syslog log facility
set log_level INFO Logging level

[account-replicator]

Option Default Description
log_name account-replicator Label used when logging
log_facility LOG_LOCAL0 Syslog log facility

log_level per_diff

INFO 1000

Logging level

concurrency 8 Number of replication workers to spawn

run_pause

30

Time in seconds to wait between replication passes

node_timeout 10 Request timeout to external services
conn_timeout 0.5 Connection timeout to external services

reclaim_age

604800

Time elapsed in seconds before an account can be reclaimed

[account-auditor]

Option Default Description
log_name account-auditor Label used when logging
log_facility LOG_LOCAL0 Syslog log facility
log_level INFO Logging level
interval 1800 Minimum time for a pass to take

accounts_per_second

200

Maximum accounts audited per second. Should be tuned according to individual system specs. 0 is unlimited.

[account-reaper]

Option Default Description
log_name account-auditor Label used when logging
log_facility LOG_LOCAL0 Syslog log facility
log_level INFO Logging level
concurrency 25 Number of replication workers to spawn
interval 3600 Minimum time for a pass to take
node_timeout 10 Request timeout to external services
conn_timeout 0.5 Connection timeout to external services

delay_reaping

0

Normally, the reaper begins deleting account information for deleted accounts immediately; you can set this to delay its work however. The value is in seconds, 2592000 = 30 days, for example.

Proxy Server Configuration

An example Proxy Server configuration can be found at etc/proxy-server.conf-sample in the source code repository.

The following configuration options are available:

[DEFAULT]

Option Default Description

bind_ip

0.0.0.0

IP Address for server to bind to

bind_port 80 Port for server to bind to

bind_timeout

30

Seconds to attempt bind before giving up

swift_dir /etc/swift Swift configuration directory

workers

auto

Override the number of pre-forked workers that will accept connections. If set it should be an integer, zero means no fork. If unset, it will try to default to the number of effective cpu cores and fallback to one. See general-service-tuning

max_clients

1024

Maximum number of clients one worker can process simultaneously (it will actually accept(2) N + 1). Setting this to one (1) will only handle one request at a time, without accepting another request concurrently.

user cert_file

key_file

cors_allow_origin

swift

User to run as Path to the ssl .crt. This should be enabled for testing purposes only. Path to the ssl .key. This should be enabled for testing purposes only. This is a list of hosts that are included with any CORS request by default and returned with the Access-Control-Allow-Origin header in addition to what the container has set.

log_custom_handlers

None

Comma separated list of functions to call to setup custom log handlers.

eventlet_debug

false

If true, turn on debug logging for eventlet

[proxy-server]

Option Default Description

use

Entry point for paste.deploy for the proxy server. For most cases, this should be egg:swift#proxy.

set log_name proxy-server Label used when logging
set log_facility LOG_LOCAL0 Syslog log facility
set log_level INFO Log level

set log_headers

True

If True, log headers in each request

set log_handoffs

True

If True, the proxy will log whenever it has to failover to a handoff node

recheck_account_existence

60

Cache timeout in seconds to send memcached for account existence

recheck_container_existence

60

Cache timeout in seconds to send memcached for container existence

object_chunk_size

65536

Chunk size to read from object servers

client_chunk_size

65536

Chunk size to read from clients

memcache_servers

127.0.0.1:11211

Comma separated list of memcached servers ip:port

memcache_max_connections

2

Max number of connections to each memcached server per worker

node_timeout

10

Request timeout to external services

client_timeout

60

Timeout to read one chunk from a client

conn_timeout

0.5

Connection timeout to external services

error_suppression_interval

60

Time in seconds that must elapse since the last error for a node to be considered no longer error limited

error_suppression_limit

10

Error count to consider a node error limited

allow_account_management

false

Whether account PUTs and DELETEs are even callable

object_post_as_copy

true

Set object_post_as_copy = false to turn on fast posts where only the metadata changes are stored anew and the original data file is kept in place. This makes for quicker posts; but since the container metadata isn't updated in this mode, features like container sync won't be able to sync posts.

account_autocreate

false

If set to 'true' authorized accounts that do not yet exist within the Swift cluster will be automatically created.

max_containers_per_account

max_containers_whitelist

0

If set to a positive value, trying to create a container when the account already has at least this maximum containers will result in a 403 Forbidden. Note: This is a soft limit, meaning a user might exceed the cap for recheck_account_existence before the 403s kick in. This is a comma separated list of account names that ignore the max_containers_per_account cap.

rate_limit_after_segment

10

Rate limit the download of large object segments after this segment is downloaded.

rate_limit_segments_per_sec

1

Rate limit large object downloads at this rate.

request_node_count

2 * replicas

Set to the number of nodes to contact for a normal request. You can use '* replicas' at the end to have it use the number given times the number of replicas for the ring being used for the request.

swift_owner_headers

<see the sample conf file for the list of default headers>

These are the headers whose values will only be shown to swift_owners. The exact definition of a swift_owner is up to the auth system in use, but usually indicates administrative responsibilities.

[tempauth]

Option Default Description

use

Entry point for paste.deploy to use for auth. To use tempauth set to: egg:swift#tempauth

set log_name tempauth Label used when logging
set log_facility LOG_LOCAL0 Syslog log facility
set log_level INFO Log level

set log_headers

True

If True, log headers in each request

reseller_prefix

AUTH

The naming scope for the auth service. Swift storage accounts and auth tokens will begin with this prefix.

auth_prefix

/auth/

The HTTP request path prefix for the auth service. Swift itself reserves anything beginning with the letter v.

token_life

86400

The number of seconds a token is valid.

storage_url_scheme

default

Scheme to return with storage urls: http, https, or default (chooses based on what the server is running as) This can be useful with an SSL load balancer in front of a non-SSL server.

Additionally, you need to list all the accounts/users you want here. The format is:

user_<account>_<user> = <key> [group] [group] [...] [storage_url]

or if you want to be able to include underscores in the <account> or <user> portions, you can base64 encode them (with no equal signs) in a line like this:

user64_<account_b64>_<user_b64> = <key> [group] [group] [...] [storage_url]

There are special groups of:

.reseller_admin = can do anything to any account for this auth
.admin = can do anything within the account

If neither of these groups are specified, the user can only access containers that have been explicitly allowed for them by a .admin or .reseller_admin.

The trailing optional storage_url allows you to specify an alternate url to hand back to the user upon authentication. If not specified, this defaults to:

$HOST/v1/<reseller_prefix>_<account>

Where $HOST will do its best to resolve to what the requester would need to use to reach this host, <reseller_prefix> is from this section, and <account> is from the user<account>_<user> name. Note that $HOST cannot possibly handle when you have a load balancer in front of it that does https while TempAuth itself runs with http; in such a case, you'll have to specify the storage_url_scheme configuration value as an override.

Here are example entries, required for running the tests:

user_admin_admin = admin .admin .reseller_admin
user_test_tester = testing .admin
user_test2_tester2 = testing2 .admin
user_test_tester3 = testing3

# account "test_y" and user "tester_y" (note the lack of padding = chars)
user64_dGVzdF95_dGVzdGVyX3k = testing4 .admin

Memcached Considerations

Several of the Services rely on Memcached for caching certain types of lookups, such as auth tokens, and container/account existence. Swift does not do any caching of actual object data. Memcached should be able to run on any servers that have available RAM and CPU. At Rackspace, we run Memcached on the proxy servers. The memcache_servers config option in the proxy-server.conf should contain all memcached servers.

System Time

Time may be relative but it is relatively important for Swift! Swift uses timestamps to determine which is the most recent version of an object. It is very important for the system time on each server in the cluster to by synced as closely as possible (more so for the proxy server, but in general it is a good idea for all the servers). At Rackspace, we use NTP with a local NTP server to ensure that the system times are as close as possible. This should also be monitored to ensure that the times do not vary too much.

General Service Tuning

Most services support either a worker or concurrency value in the settings. This allows the services to make effective use of the cores available. A good starting point to set the concurrency level for the proxy and storage services to 2 times the number of cores available. If more than one service is sharing a server, then some experimentation may be needed to find the best balance.

At Rackspace, our Proxy servers have dual quad core processors, giving us 8 cores. Our testing has shown 16 workers to be a pretty good balance when saturating a 10g network and gives good CPU utilization.

Our Storage servers all run together on the same servers. These servers have dual quad core processors, for 8 cores total. We run the Account, Container, and Object servers with 8 workers each. Most of the background jobs are run at a concurrency of 1, with the exception of the replicators which are run at a concurrency of 2.

The max_clients parameter can be used to adjust the number of client requests an individual worker accepts for processing. The fewer requests being processed at one time, the less likely a request that consumes the worker's CPU time, or blocks in the OS, will negatively impact other requests. The more requests being processed at one time, the more likely one worker can utilize network and disk capacity.

On systems that have more cores, and more memory, where one can afford to run more workers, raising the number of workers and lowering the maximum number of clients serviced per worker can lessen the impact of CPU intensive or stalled requests.

The above configuration setting should be taken as suggestions and testing of configuration settings should be done to ensure best utilization of CPU, network connectivity, and disk I/O.

Filesystem Considerations

Swift is designed to be mostly filesystem agnostic--the only requirement being that the filesystem supports extended attributes (xattrs). After thorough testing with our use cases and hardware configurations, XFS was the best all-around choice. If you decide to use a filesystem other than XFS, we highly recommend thorough testing.

For distros with more recent kernels (for example Ubuntu 12.04 Precise), we recommend using the default settings (including the default inode size of 256 bytes) when creating the file system:

mkfs.xfs /dev/sda1

In the last couple of years, XFS has made great improvements in how inodes are allocated and used. Using the default inode size no longer has an impact on performance.

For distros with older kernels (for example Ubuntu 10.04 Lucid), some settings can dramatically impact performance. We recommend the following when creating the file system:

mkfs.xfs -i size=1024 /dev/sda1

Setting the inode size is important, as XFS stores xattr data in the inode. If the metadata is too large to fit in the inode, a new extent is created, which can cause quite a performance problem. Upping the inode size to 1024 bytes provides enough room to write the default metadata, plus a little headroom.

The following example mount options are recommended when using XFS:

mount -t xfs -o noatime,nodiratime,nobarrier,logbufs=8 /dev/sda1 /srv/node/sda

We do not recommend running Swift on RAID, but if you are using RAID it is also important to make sure that the proper sunit and swidth settings get set so that XFS can make most efficient use of the RAID array.

For a standard swift install, all data drives are mounted directly under /srv/node (as can be seen in the above example of mounting /def/sda1 as /srv/node/sda). If you choose to mount the drives in another directory, be sure to set the devices config option in all of the server configs to point to the correct directory.

Swift uses system calls to reserve space for new objects being written into the system. If your filesystem does not support fallocate() or posix_fallocate(), be sure to set the disable_fallocate = true config parameter in account, container, and object server configs.

General System Tuning

Rackspace currently runs Swift on Ubuntu Server 10.04, and the following changes have been found to be useful for our use cases.

The following settings should be in `/etc/sysctl.conf`:

# disable TIME_WAIT.. wait..
net.ipv4.tcp_tw_recycle=1
net.ipv4.tcp_tw_reuse=1

# disable syn cookies
net.ipv4.tcp_syncookies = 0

# double amount of allowed conntrack
net.ipv4.netfilter.ip_conntrack_max = 262144

To load the updated sysctl settings, run sudo sysctl -p

A note about changing the TIME_WAIT values. By default the OS will hold a port open for 60 seconds to ensure that any remaining packets can be received. During high usage, and with the number of connections that are created, it is easy to run out of ports. We can change this since we are in control of the network. If you are not in control of the network, or do not expect high loads, then you may not want to adjust those values.

Logging Considerations

Swift is set up to log directly to syslog. Every service can be configured with the log_facility option to set the syslog log facility destination. We recommended using syslog-ng to route the logs to specific log files locally on the server and also to remote log collecting servers. Additionally, custom log handlers can be used via the custom_log_handlers setting.