Module Reference

Module Reference

Interfaces

class tooz.coordination.CoordinationDriver(member_id, parsed_url, options)[source]

Bases: object

CHARACTERISTICS = ()

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

__init__(member_id, parsed_url, options)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

__weakref__

list of weak references to the object (if defined)

static create_group(group_id)[source]

Request the creation of a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to create
Returns:None
Return type:CoordAsyncResult
static delete_group(group_id)[source]

Delete a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:Result
Return type:CoordAsyncResult
static get_groups()[source]

Return the list composed by all groups ids asynchronously.

Returns:the list of all created group ids
Return type:CoordAsyncResult
static get_leader(group_id)[source]

Return the leader for a group.

Parameters:group_id – the id of the group:
Returns:the leader
Return type:CoordAsyncResult
static get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.
static get_member_capabilities(group_id, member_id)[source]

Return the capabilities of a member asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group of the member
  • member_id (ascii bytes) – the id of the member
Returns:

capabilities of a member

Return type:

CoordAsyncResult

static get_member_info(group_id, member_id)[source]

Return the statistics and capabilities of a member asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group of the member
  • member_id (ascii bytes) – the id of the member
Returns:

capabilities and statistics of a member

Return type:

CoordAsyncResult

static get_members(group_id)[source]

Return the set of all members ids of the specified group.

Returns:set of all created group ids
Return type:CoordAsyncResult
static heartbeat()[source]

Update member status to indicate it is still alive.

Method to run once in a while to be sure that the member is not dead and is still an active member of a group.

Returns:The number of seconds to wait before sending a new heartbeat.
static join_group(group_id, capabilities='')[source]

Join a group and establish group membership asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group to join
  • capabilities (object) – the capabilities of the joined member
Returns:

None

Return type:

CoordAsyncResult

join_group_create(**kw)[source]

Join a group and create it if necessary.

If the group cannot be joined because it does not exist, it is created before being joined.

This function will keep retrying until it can create the group and join it. Since nothing is transactional, it may have to retry several times if another member is creating/deleting the group at the same time.

Parameters:
  • group_id – Identifier of the group to join and create
  • capabilities – the capabilities of the joined member
join_partitioned_group(group_id, weight=1, partitions=32)[source]

Join a group and get a partitioner.

A partitioner allows to distribute a bunch of objects across several members using a consistent hash ring. Each object gets assigned (at least) one member responsible for it. It’s then possible to check which object is owned by any member of the group.

This method also creates if necessary, and joins the group with the selected weight.

Parameters:
  • group_id – The group to create a partitioner for.
  • weight – The weight to use in the hashring for this node.
  • partitions – The number of partitions to create.
Returns:

A Partitioner object.

static leave_group(group_id)[source]

Leave a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:None
Return type:CoordAsyncResult
leave_partitioned_group(partitioner)[source]

Leave a partitioned group.

This leaves the partitioned group and stop the partitioner. :param group_id: The group to create a partitioner for.

requires_beating = False

Usage requirement that if true requires that the heartbeat() be called periodically (at a given rate) to avoid locks, sessions and other from being automatically closed/discarded by the coordinators backing store.

static run_elect_coordinator()[source]

Try to leader elect this coordinator & activate hooks on success.

static run_watchers(timeout=None)[source]

Run the watchers callback.

This may also activate run_elect_coordinator() (depending on driver implementation).

static stand_down_group_leader(group_id)[source]

Stand down as the group leader if we are.

Parameters:group_id – The group where we don’t want to be a leader anymore
start(start_heart=False)[source]

Start the service engine.

If needed, the establishment of a connection to the servers is initiated.

stop()[source]

Stop the service engine.

If needed, the connection to servers is closed and the client will disappear from all joined groups.

unwatch_elected_as_leader(group_id, callback)[source]

Call a function when member gets elected as leader.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member leaves this group
unwatch_join_group(group_id, callback)[source]

Stop executing a function when a group_id sees a new member joined.

Parameters:
  • group_id – The group id to unwatch
  • callback – The function that was executed when a member joined this group
unwatch_leave_group(group_id, callback)[source]

Stop executing a function when a group_id sees a new member leaving.

Parameters:
  • group_id – The group id to unwatch
  • callback – The function that was executed when a member left this group
static update_capabilities(group_id, capabilities)[source]

Update member capabilities in the specified group.

Parameters:
  • group_id (ascii bytes) – the id of the group of the current member
  • capabilities (object) – the capabilities of the updated member
Returns:

None

Return type:

CoordAsyncResult

watch_elected_as_leader(group_id, callback)[source]

Call a function when member gets elected as leader.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member leaves this group
watch_join_group(group_id, callback)[source]

Call a function when group_id sees a new member joined.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member joins this group
watch_leave_group(group_id, callback)[source]

Call a function when group_id sees a new member leaving.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member leaves this group

Consul

class tooz.drivers.consul.ConsulDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriver

This driver uses python-consul client against consul servers.

The ConsulDriver implements a minimal set of coordination driver API(s) needed to make Consul being used as an option for Distributed Locking. The data is stored in Consul’s key-value store.

To configure the client to your liking please refer http://python-consul.readthedocs.org/en/latest/. Few options like ‘ttl’ and ‘namespace’ will be passed as part of the options. ‘ttl’ governs the duration till when the session holding the lock will be active.

DEFAULT_PORT = 8500

Default consul port if not provided.

DEFAULT_TTL = 15

Default TTL

TOOZ_NAMESPACE = u'tooz'

Default namespace when none is provided

__init__(member_id, parsed_url, options)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.
unwatch_join_group(group_id, callback)[source]

Stop executing a function when a group_id sees a new member joined.

Parameters:
  • group_id – The group id to unwatch
  • callback – The function that was executed when a member joined this group
unwatch_leave_group(group_id, callback)[source]

Stop executing a function when a group_id sees a new member leaving.

Parameters:
  • group_id – The group id to unwatch
  • callback – The function that was executed when a member left this group
watch_join_group(group_id, callback)[source]

Call a function when group_id sees a new member joined.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member joins this group
watch_leave_group(group_id, callback)[source]

Call a function when group_id sees a new member leaving.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member leaves this group

Etcd

class tooz.drivers.etcd.EtcdDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriver

An etcd based driver.

This driver uses etcd provide the coordination driver semantics and required API(s).

DEFAULT_HOST = 'localhost'

Default hostname used when none is provided.

DEFAULT_PORT = 2379

Default port used if none provided (4001 or 2379 are the common ones).

DEFAULT_TIMEOUT = 30

Default socket/lock/member/leader timeout used when none is provided.

__init__(member_id, parsed_url, options)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.
heartbeat()[source]

Update member status to indicate it is still alive.

Method to run once in a while to be sure that the member is not dead and is still an active member of a group.

Returns:The number of seconds to wait before sending a new heartbeat.
lock_encoder_cls

alias of tooz.utils.Base64LockEncoder

unwatch_join_group(group_id, callback)[source]

Stop executing a function when a group_id sees a new member joined.

Parameters:
  • group_id – The group id to unwatch
  • callback – The function that was executed when a member joined this group
unwatch_leave_group(group_id, callback)[source]

Stop executing a function when a group_id sees a new member leaving.

Parameters:
  • group_id – The group id to unwatch
  • callback – The function that was executed when a member left this group
watch_join_group(group_id, callback)[source]

Call a function when group_id sees a new member joined.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member joins this group
watch_leave_group(group_id, callback)[source]

Call a function when group_id sees a new member leaving.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member leaves this group

File

class tooz.drivers.file.FileDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriverCachedRunWatchers, tooz.coordination.CoordinationDriverWithExecutor

A file based driver.

This driver uses files and directories (and associated file locks) to provide the coordination driver semantics and required API(s). It is missing some functionality but in the future these not implemented API(s) will be filled in.

General recommendations/usage considerations:

  • It does not automatically delete members from groups of processes that have died, manual cleanup will be needed for those types of failures.
  • It is not distributed (or recommended to be used in those situations, so the developer using this should really take that into account when applying this driver in there app).
CHARACTERISTICS = (<Characteristics.NON_TIMEOUT_BASED: 'NON_TIMEOUT_BASED'>, <Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>, <Characteristics.DISTRIBUTED_ACROSS_PROCESSES: 'DISTRIBUTED_ACROSS_PROCESSES'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

HASH_ROUTINE = 'sha1'

This routine is used to hash a member (or group) id into a filesystem safe name that can be used for member lookup and group joining.

__init__(member_id, parsed_url, options)[source]

Initialize the file driver.

create_group(group_id)[source]

Request the creation of a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to create
Returns:None
Return type:CoordAsyncResult
delete_group(group_id)[source]

Delete a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:Result
Return type:CoordAsyncResult
get_groups()[source]

Return the list composed by all groups ids asynchronously.

Returns:the list of all created group ids
Return type:CoordAsyncResult
get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.
get_member_capabilities(group_id, member_id)[source]

Return the capabilities of a member asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group of the member
  • member_id (ascii bytes) – the id of the member
Returns:

capabilities of a member

Return type:

CoordAsyncResult

get_members(group_id)[source]

Return the set of all members ids of the specified group.

Returns:set of all created group ids
Return type:CoordAsyncResult
heartbeat()[source]

Update member status to indicate it is still alive.

Method to run once in a while to be sure that the member is not dead and is still an active member of a group.

Returns:The number of seconds to wait before sending a new heartbeat.
join_group(group_id, capabilities='')[source]

Join a group and establish group membership asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group to join
  • capabilities (object) – the capabilities of the joined member
Returns:

None

Return type:

CoordAsyncResult

leave_group(group_id)[source]

Leave a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:None
Return type:CoordAsyncResult

IPC

class tooz.drivers.ipc.IPCDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriverWithExecutor

A IPC based driver.

This driver uses IPC concepts to provide the coordination driver semantics and required API(s). It is missing some functionality but in the future these not implemented API(s) will be filled in.

General recommendations/usage considerations:

  • It is not distributed (or recommended to be used in those situations, so the developer using this should really take that into account when applying this driver in there app).
CHARACTERISTICS = (<Characteristics.NON_TIMEOUT_BASED: 'NON_TIMEOUT_BASED'>, <Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>, <Characteristics.DISTRIBUTED_ACROSS_PROCESSES: 'DISTRIBUTED_ACROSS_PROCESSES'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

create_group(group_id)[source]

Request the creation of a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to create
Returns:None
Return type:CoordAsyncResult
delete_group(group_id)[source]

Delete a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:Result
Return type:CoordAsyncResult
get_groups()[source]

Return the list composed by all groups ids asynchronously.

Returns:the list of all created group ids
Return type:CoordAsyncResult
watch_join_group(group_id, callback)[source]

Call a function when group_id sees a new member joined.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member joins this group
watch_leave_group(group_id, callback)[source]

Call a function when group_id sees a new member leaving.

The callback functions will be executed when run_watchers is called.

Parameters:
  • group_id – The group id to watch
  • callback – The function to execute when a member leaves this group

Memcached

class tooz.drivers.memcached.MemcachedDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriverCachedRunWatchers, tooz.coordination.CoordinationDriverWithExecutor

A memcached based driver.

This driver users memcached concepts to provide the coordination driver semantics and required API(s). It is fully functional and implements all of the coordination driver API(s). It stores data into memcache using expiries and msgpack encoded values.

General recommendations/usage considerations:

  • Memcache (without different backend technology) is a cache enough said.
CHARACTERISTICS = (<Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>, <Characteristics.DISTRIBUTED_ACROSS_PROCESSES: 'DISTRIBUTED_ACROSS_PROCESSES'>, <Characteristics.DISTRIBUTED_ACROSS_HOSTS: 'DISTRIBUTED_ACROSS_HOSTS'>, <Characteristics.CAUSAL: 'CAUSAL'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

DEFAULT_TIMEOUT = 30

Default socket/lock/member/leader timeout used when none is provided.

GROUP_LEADER_PREFIX = '_TOOZ_GROUP_LEADER_'

Key prefix attached to leaders of groups (used in name-spacing keys)

GROUP_LIST_KEY = '_TOOZ_GROUP_LIST'

Key where all groups ‘known’ are stored.

GROUP_PREFIX = '_TOOZ_GROUP_'

Key prefix attached to groups (used in name-spacing keys)

MEMBER_PREFIX = '_TOOZ_MEMBER_'

Key prefix attached to members of groups (used in name-spacing keys)

STILL_ALIVE = "It's alive!"

String used to keep a key/member alive (until it next expires).

__init__(member_id, parsed_url, options)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

create_group(group_id)[source]

Request the creation of a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to create
Returns:None
Return type:CoordAsyncResult
delete_group(group_id)[source]

Delete a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:Result
Return type:CoordAsyncResult
get_groups()[source]

Return the list composed by all groups ids asynchronously.

Returns:the list of all created group ids
Return type:CoordAsyncResult
get_leader(group_id)[source]

Return the leader for a group.

Parameters:group_id – the id of the group:
Returns:the leader
Return type:CoordAsyncResult
get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.
get_member_capabilities(group_id, member_id)[source]

Return the capabilities of a member asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group of the member
  • member_id (ascii bytes) – the id of the member
Returns:

capabilities of a member

Return type:

CoordAsyncResult

get_members(group_id)[source]

Return the set of all members ids of the specified group.

Returns:set of all created group ids
Return type:CoordAsyncResult
heartbeat(**kwargs)[source]

Update member status to indicate it is still alive.

Method to run once in a while to be sure that the member is not dead and is still an active member of a group.

Returns:The number of seconds to wait before sending a new heartbeat.
join_group(group_id, capabilities='')[source]

Join a group and establish group membership asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group to join
  • capabilities (object) – the capabilities of the joined member
Returns:

None

Return type:

CoordAsyncResult

leave_group(group_id)[source]

Leave a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:None
Return type:CoordAsyncResult
run_elect_coordinator(**kwargs)[source]

Try to leader elect this coordinator & activate hooks on success.

run_watchers(timeout=None)[source]

Run the watchers callback.

This may also activate run_elect_coordinator() (depending on driver implementation).

update_capabilities(group_id, capabilities)[source]

Update member capabilities in the specified group.

Parameters:
  • group_id (ascii bytes) – the id of the group of the current member
  • capabilities (object) – the capabilities of the updated member
Returns:

None

Return type:

CoordAsyncResult

Mysql

class tooz.drivers.mysql.MySQLDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriver

A MySQL based driver.

This driver users MySQL database tables to provide the coordination driver semantics and required API(s). It is missing some functionality but in the future these not implemented API(s) will be filled in.

CHARACTERISTICS = (<Characteristics.NON_TIMEOUT_BASED: 'NON_TIMEOUT_BASED'>, <Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>, <Characteristics.DISTRIBUTED_ACROSS_PROCESSES: 'DISTRIBUTED_ACROSS_PROCESSES'>, <Characteristics.DISTRIBUTED_ACROSS_HOSTS: 'DISTRIBUTED_ACROSS_HOSTS'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

__init__(member_id, parsed_url, options)[source]

Initialize the MySQL driver.

get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.

PostgreSQL

class tooz.drivers.pgsql.PostgresDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriver

A PostgreSQL based driver.

This driver users PostgreSQL database tables to provide the coordination driver semantics and required API(s). It is missing some functionality but in the future these not implemented API(s) will be filled in.

CHARACTERISTICS = (<Characteristics.NON_TIMEOUT_BASED: 'NON_TIMEOUT_BASED'>, <Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>, <Characteristics.DISTRIBUTED_ACROSS_PROCESSES: 'DISTRIBUTED_ACROSS_PROCESSES'>, <Characteristics.DISTRIBUTED_ACROSS_HOSTS: 'DISTRIBUTED_ACROSS_HOSTS'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

__init__(member_id, parsed_url, options)[source]

Initialize the PostgreSQL driver.

get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.

Redis

class tooz.drivers.redis.RedisDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriverCachedRunWatchers, tooz.coordination.CoordinationDriverWithExecutor

Redis provides a few nice benefits that act as a poormans zookeeper.

It is fully functional and implements all of the coordination driver API(s). It stores data into redis using the provided redis API(s) using msgpack encoded values as needed.

  • Durability (when setup with AOF mode).
  • Consistent, note that this is still restricted to only one redis server, without the recently released redis (alpha) clustering > 1 server will not be consistent when partitions or failures occur (even redis clustering docs state it is not a fully AP or CP solution, which means even with it there will still be potential inconsistencies).
  • Master/slave failover (when setup with redis sentinel), giving some notion of HA (values can be lost when a failover transition occurs).

To use a sentinel the connection URI must point to the sentinel server. At connection time the sentinel will be asked for the current IP and port of the master and then connect there. The connection URI for sentinel should be written as follows:

redis://<sentinel host>:<sentinel port>?sentinel=<master name>

Additional sentinel hosts are listed with multiple sentinel_fallback parameters as follows:

redis://<sentinel host>:<sentinel port>?sentinel=<master name>&
  sentinel_fallback=<other sentinel host>:<sentinel port>&
  sentinel_fallback=<other sentinel host>:<sentinel port>&
  sentinel_fallback=<other sentinel host>:<sentinel port>

Further resources/links:

Note that this client will itself retry on transaction failure (when they keys being watched have changed underneath the current transaction). Currently the number of attempts that are tried is infinite (this might be addressed in https://github.com/andymccurdy/redis-py/issues/566 when that gets worked on). See http://redis.io/topics/transactions for more information on this topic.

General recommendations/usage considerations:

  • When used for locks, run in AOF mode and think carefully about how your redis deployment handles losing a server (the clustering support is supposed to aid in losing servers, but it is also of unknown reliablity and is relatively new, so use at your own risk).
CHARACTERISTICS = (<Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>, <Characteristics.DISTRIBUTED_ACROSS_PROCESSES: 'DISTRIBUTED_ACROSS_PROCESSES'>, <Characteristics.DISTRIBUTED_ACROSS_HOSTS: 'DISTRIBUTED_ACROSS_HOSTS'>, <Characteristics.CAUSAL: 'CAUSAL'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

CLIENT_ARGS = frozenset(['sentinel_fallback', 'sentinel', 'socket_keepalive', 'ssl_keyfile', 'retry_on_timeout', 'ssl_certfile', 'ssl', 'db', 'encoding', 'socket_timeout'])

Keys that we allow to proxy from the coordinator configuration into the redis client (used to configure the redis client internals so that it works as you expect/want it to).

See: http://redis-py.readthedocs.org/en/latest/#redis.Redis

See: https://github.com/andymccurdy/redis-py/blob/2.10.3/redis/client.py

CLIENT_BOOL_ARGS = frozenset(['ssl', 'retry_on_timeout'])

Client arguments that are expected to be boolean convertible.

CLIENT_DEFAULT_SOCKET_TO = 30

Default socket timeout to use when none is provided.

CLIENT_INT_ARGS = frozenset(['socket_timeout', 'socket_keepalive', 'db'])

Client arguments that are expected to be int convertible.

CLIENT_LIST_ARGS = frozenset(['sentinel_fallback'])

Client arguments that are expected/allowed to be lists.

DEFAULT_ENCODING = 'utf8'

This is for python3.x; which will behave differently when returned binary types or unicode types (redis uses binary internally it appears), so to just stick with a common way of doing this, make all the things binary (with this default encoding if one is not given and a unicode string is provided).

DEFAULT_NAMESPACE = '_tooz'

Default namespace for keys when none is provided.

GROUP_EXISTS = '__created__'

Redis deletes dictionaries that have no keys in them, which means the key will disappear which means we can’t tell the difference between a group not existing and a group being empty without this key being saved…

GROUP_EXISTS_VALUE = '1'

Value used (with group exists key) to keep a group from disappearing.

MIN_VERSION = LooseVersion ('2.6.0')

The min redis version that this driver requires to operate with…

NAMESPACE_SEP = ':'

Separator that is used to combine a key with the namespace (to get the actual key that will be used).

SCRIPTS = {'create_group': '\n-- Extract *all* the variables (so we can easily know what they are)...\nlocal namespaced_group_key = KEYS[1]\nlocal all_groups_key = KEYS[2]\nlocal no_namespaced_group_key = ARGV[1]\nif redis.call("exists", namespaced_group_key) == 1 then\n return 0\nend\nredis.call("sadd", all_groups_key, no_namespaced_group_key)\nredis.call("hset", namespaced_group_key,\n "${group_existence_key}", "${group_existence_value}")\nreturn 1\n', 'delete_group': '\n-- Extract *all* the variables (so we can easily know what they are)...\nlocal namespaced_group_key = KEYS[1]\nlocal all_groups_key = KEYS[2]\nlocal no_namespaced_group_key = ARGV[1]\nif redis.call("exists", namespaced_group_key) == 0 then\n return -1\nend\nif redis.call("sismember", all_groups_key, no_namespaced_group_key) == 0 then\n return -2\nend\nif redis.call("hlen", namespaced_group_key) > 1 then\n return -3\nend\n-- First remove from the set (then delete the group); if the set removal\n-- fails, at least the group will still exist (and can be fixed manually)...\nif redis.call("srem", all_groups_key, no_namespaced_group_key) == 0 then\n return -4\nend\nredis.call("del", namespaced_group_key)\nreturn 1\n', 'update_capabilities': '\n-- Extract *all* the variables (so we can easily know what they are)...\nlocal group_key = KEYS[1]\nlocal member_id = ARGV[1]\nlocal caps = ARGV[2]\nif redis.call("exists", group_key) == 0 then\n return -1\nend\nif redis.call("hexists", group_key, member_id) == 0 then\n return -2\nend\nredis.call("hset", group_key, member_id, caps)\nreturn 1\n'}

Lua template scripts that will be used by various methods (they are turned into real scripts and loaded on call into the start() method).

STILL_ALIVE = 'Not dead!'

String used to keep a key/member alive (until it next expires).

__init__(member_id, parsed_url, options)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

create_group(group_id)[source]

Request the creation of a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to create
Returns:None
Return type:CoordAsyncResult
delete_group(group_id)[source]

Delete a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:Result
Return type:CoordAsyncResult
get_groups()[source]

Return the list composed by all groups ids asynchronously.

Returns:the list of all created group ids
Return type:CoordAsyncResult
get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.
get_member_capabilities(group_id, member_id)[source]

Return the capabilities of a member asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group of the member
  • member_id (ascii bytes) – the id of the member
Returns:

capabilities of a member

Return type:

CoordAsyncResult

get_members(group_id)[source]

Return the set of all members ids of the specified group.

Returns:set of all created group ids
Return type:CoordAsyncResult
heartbeat()[source]

Update member status to indicate it is still alive.

Method to run once in a while to be sure that the member is not dead and is still an active member of a group.

Returns:The number of seconds to wait before sending a new heartbeat.
join_group(group_id, capabilities='')[source]

Join a group and establish group membership asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group to join
  • capabilities (object) – the capabilities of the joined member
Returns:

None

Return type:

CoordAsyncResult

leave_group(group_id)[source]

Leave a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:None
Return type:CoordAsyncResult
run_elect_coordinator()[source]

Try to leader elect this coordinator & activate hooks on success.

run_watchers(timeout=None)[source]

Run the watchers callback.

This may also activate run_elect_coordinator() (depending on driver implementation).

update_capabilities(group_id, capabilities)[source]

Update member capabilities in the specified group.

Parameters:
  • group_id (ascii bytes) – the id of the group of the current member
  • capabilities (object) – the capabilities of the updated member
Returns:

None

Return type:

CoordAsyncResult

Zake

class tooz.drivers.zake.ZakeDriver(member_id, parsed_url, options)[source]

Bases: tooz.drivers.zookeeper.KazooDriver

This driver uses the zake client to mimic real zookeeper servers.

It should be mainly used (and is really only intended to be used in this manner) for testing and integration (where real zookeeper servers are typically not available).

CHARACTERISTICS = (<Characteristics.NON_TIMEOUT_BASED: 'NON_TIMEOUT_BASED'>, <Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

Zookeeper

class tooz.drivers.zookeeper.KazooDriver(member_id, parsed_url, options)[source]

Bases: tooz.coordination.CoordinationDriverCachedRunWatchers

This driver uses the kazoo client against real zookeeper servers.

It is fully functional and implements all of the coordination driver API(s). It stores data into zookeeper using znodes and msgpack encoded values.

To configure the client to your liking a subset of the options defined at http://kazoo.readthedocs.org/en/latest/api/client.html will be extracted from the coordinator url (or any provided options), so that a specific coordinator can be created that will work for you.

Currently the following options will be proxied to the contained client:

Name Source Default
hosts url netloc + ‘hosts’ option key localhost:2181
timeout ‘timeout’ options key 10.0 (kazoo default)
connection_retry ‘connection_retry’ options key None
command_retry ‘command_retry’ options key None
randomize_hosts ‘randomize_hosts’ options key True
CHARACTERISTICS = (<Characteristics.NON_TIMEOUT_BASED: 'NON_TIMEOUT_BASED'>, <Characteristics.DISTRIBUTED_ACROSS_THREADS: 'DISTRIBUTED_ACROSS_THREADS'>, <Characteristics.DISTRIBUTED_ACROSS_PROCESSES: 'DISTRIBUTED_ACROSS_PROCESSES'>, <Characteristics.DISTRIBUTED_ACROSS_HOSTS: 'DISTRIBUTED_ACROSS_HOSTS'>, <Characteristics.SEQUENTIAL: 'SEQUENTIAL'>)

Tuple of Characteristics introspectable enum member(s) that can be used to interogate how this driver works.

TOOZ_NAMESPACE = 'tooz'

Default namespace when none is provided.

__init__(member_id, parsed_url, options)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

create_group(group_id)[source]

Request the creation of a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to create
Returns:None
Return type:CoordAsyncResult
delete_group(group_id)[source]

Delete a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:Result
Return type:CoordAsyncResult
get_groups()[source]

Return the list composed by all groups ids asynchronously.

Returns:the list of all created group ids
Return type:CoordAsyncResult
get_leader(group_id)[source]

Return the leader for a group.

Parameters:group_id – the id of the group:
Returns:the leader
Return type:CoordAsyncResult
get_lock(name)[source]

Return a distributed lock.

This is a exclusive lock, a second call to acquire() will block or return False.

Parameters:name – The lock name that is used to identify it across all nodes.
get_member_capabilities(group_id, member_id)[source]

Return the capabilities of a member asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group of the member
  • member_id (ascii bytes) – the id of the member
Returns:

capabilities of a member

Return type:

CoordAsyncResult

get_member_info(group_id, member_id)[source]

Return the statistics and capabilities of a member asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group of the member
  • member_id (ascii bytes) – the id of the member
Returns:

capabilities and statistics of a member

Return type:

CoordAsyncResult

get_members(group_id)[source]

Return the set of all members ids of the specified group.

Returns:set of all created group ids
Return type:CoordAsyncResult
heartbeat()[source]

Update member status to indicate it is still alive.

Method to run once in a while to be sure that the member is not dead and is still an active member of a group.

Returns:The number of seconds to wait before sending a new heartbeat.
join_group(group_id, capabilities='')[source]

Join a group and establish group membership asynchronously.

Parameters:
  • group_id (ascii bytes) – the id of the group to join
  • capabilities (object) – the capabilities of the joined member
Returns:

None

Return type:

CoordAsyncResult

leave_group(group_id)[source]

Leave a group asynchronously.

Parameters:group_id (ascii bytes) – the id of the group to leave
Returns:None
Return type:CoordAsyncResult
run_elect_coordinator()[source]

Try to leader elect this coordinator & activate hooks on success.

run_watchers(timeout=None)[source]

Run the watchers callback.

This may also activate run_elect_coordinator() (depending on driver implementation).

stand_down_group_leader(group_id)[source]

Stand down as the group leader if we are.

Parameters:group_id – The group where we don’t want to be a leader anymore
update_capabilities(group_id, capabilities)[source]

Update member capabilities in the specified group.

Parameters:
  • group_id (ascii bytes) – the id of the group of the current member
  • capabilities (object) – the capabilities of the updated member
Returns:

None

Return type:

CoordAsyncResult

Exceptions

class tooz.ToozError(message, cause=None)[source]

Bases: exceptions.Exception

Exception raised when an internal error occurs.

Raised for instance in case of server internal error.

Variables:cause – the cause of the exception being raised, when not none this will itself be an exception instance, this is useful for creating a chain of exceptions for versions of python where this is not yet implemented/supported natively.
__init__(message, cause=None)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

__weakref__

list of weak references to the object (if defined)

class tooz.coordination.ToozConnectionError(message, cause=None)[source]

Bases: tooz.ToozError

Exception raised when the client cannot connect to the server.

class tooz.coordination.OperationTimedOut(message, cause=None)[source]

Bases: tooz.ToozError

Exception raised when an operation times out.

class tooz.coordination.GroupNotCreated(group_id)[source]

Bases: tooz.ToozError

Exception raised when the caller request an nonexistent group.

__init__(group_id)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

class tooz.coordination.GroupAlreadyExist(group_id)[source]

Bases: tooz.ToozError

Exception raised trying to create an already existing group.

__init__(group_id)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

class tooz.coordination.MemberAlreadyExist(group_id, member_id)[source]

Bases: tooz.ToozError

Exception raised trying to join a group already joined.

__init__(group_id, member_id)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

class tooz.coordination.MemberNotJoined(group_id, member_id)[source]

Bases: tooz.ToozError

Exception raised trying to access a member not in a group.

__init__(group_id, member_id)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

class tooz.coordination.GroupNotEmpty(group_id)[source]

Bases: tooz.ToozError

Exception raised when the caller try to delete a group with members.

__init__(group_id)[source]

x.__init__(…) initializes x; see help(type(x)) for signature

tooz.utils.raise_with_cause(exc_cls, message, *args, **kwargs)[source]

Helper to raise + chain exceptions (when able) and associate a cause.

For internal usage only.

NOTE(harlowja): Since in py3.x exceptions can be chained (due to PEP 3134) we should try to raise the desired exception with the given cause.

Parameters:
  • exc_cls – the ToozError class to raise.
  • message – the text/str message that will be passed to the exceptions constructor as its first positional argument.
  • args – any additional positional arguments to pass to the exceptions constructor.
  • kwargs – any additional keyword arguments to pass to the exceptions constructor.
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