A python client for Etcd https://github.com/coreos/etcd
Official documentation: http://python-etcd.readthedocs.org/
This version of python-etcd will only work correctly with the etcd server version 2.0.x or later. If you are running an older version of etcd, please use python-etcd 0.3.3 or earlier.
This client is known to work with python 2.7 and with python 3.3 or above. It is not tested or expected to work in more outdated versions of python.
$ python setup.py install
$ python3.5 -m pip install python-etcd
The basic methods of the client have changed compared to previous versions, to reflect the new API structure; however a compatibility layer has been maintained so that you don't necessarily need to rewrite all your existing code.
import etcd
client = etcd.Client() # this will create a client against etcd server running on localhost on port 4001
client = etcd.Client(port=4002)
client = etcd.Client(host='127.0.0.1', port=4003)
client = etcd.Client(host=(('127.0.0.1', 4001), ('127.0.0.1', 4002), ('127.0.0.1', 4003)))
client = etcd.Client(host='127.0.0.1', port=4003, allow_redirect=False) # wont let you run sensitive commands on non-leader machines, default is true
# If you have defined a SRV record for _etcd._tcp.example.com pointing to the clients
client = etcd.Client(srv_domain='example.com', protocol="https")
# create a client against https://api.example.com:443/etcd
client = etcd.Client(host='api.example.com', protocol='https', port=443, version_prefix='/etcd')
client.write('/nodes/n1', 1)
# with ttl
client.write('/nodes/n2', 2, ttl=4) # sets the ttl to 4 seconds
client.set('/nodes/n2', 1) # Equivalent, for compatibility reasons.
client.read('/nodes/n2').value
client.read('/nodes', recursive = True) #get all the values of a directory, recursively.
client.get('/nodes/n2').value
# raises etcd.EtcdKeyNotFound when key not found
try:
client.read('/invalid/path')
except etcd.EtcdKeyNotFound:
# do something
print "error"
client.delete('/nodes/n1')
client.write('/nodes/n2', 2, prevValue = 4) # will set /nodes/n2 's value to 2 only if its previous value was 4 and
client.write('/nodes/n2', 2, prevExist = False) # will set /nodes/n2 's value to 2 only if the key did not exist before
client.write('/nodes/n2', 2, prevIndex = 30) # will set /nodes/n2 's value to 2 only if the key was last modified at index 30
client.test_and_set('/nodes/n2', 2, 4) #equivalent to client.write('/nodes/n2', 2, prevValue = 4)
You can also atomically update a result:
result = client.read('/foo')
print(result.value) # bar
result.value += u'bar'
updated = client.update(result) # if any other client wrote '/foo' in the meantime this will fail
print(updated.value) # barbar
client.read('/nodes/n1', wait = True) # will wait till the key is changed, and return once its changed
client.read('/nodes/n1', wait = True, timeout=30) # will wait till the key is changed, and return once its changed, or exit with an exception after 30 seconds.
client.read('/nodes/n1', wait = True, waitIndex = 10) # get all changes on this key starting from index 10
client.watch('/nodes/n1') #equivalent to client.read('/nodes/n1', wait = True)
client.watch('/nodes/n1', index = 10)
(Since etcd 2.3.0) Keys in etcd can be refreshed without notifying current watchers.
This can be achieved by setting the refresh to true when updating a TTL.
You cannot update the value of a key when refreshing it.
client.write('/nodes/n1', 'value', ttl=30) # sets the ttl to 30 seconds
client.refresh('/nodes/n1', ttl=600) # refresh ttl to 600 seconds, without notifying current watchers
# Initialize the lock object:
# NOTE: this does not acquire a lock yet
client = etcd.Client()
# Or you can custom lock prefix, default is '/_locks/' if you are using HEAD
client = etcd.Client(lock_prefix='/my_etcd_root/_locks')
lock = etcd.Lock(client, 'my_lock_name')
# Use the lock object:
lock.acquire(blocking=True, # will block until the lock is acquired
lock_ttl=None) # lock will live until we release it
lock.is_acquired # True
lock.acquire(lock_ttl=60) # renew a lock
lock.release() # release an existing lock
lock.is_acquired # False
# The lock object may also be used as a context manager:
client = etcd.Client()
with etcd.Lock(client, 'customer1') as my_lock:
do_stuff()
my_lock.is_acquired # True
my_lock.acquire(lock_ttl=60)
my_lock.is_acquired # False
client.machines
client.leader
x = client.write("/dir/name", "value", append=True)
print("generated key: " + x.key)
print("stored value: " + x.value)
#stick a couple values in the directory
client.write("/dir/name", "value1", append=True)
client.write("/dir/name", "value2", append=True)
directory = client.get("/dir/name")
# loop through directory children
for result in directory.children:
print(result.key + ": " + result.value)
# or just get the first child value
print(directory.children.next().value)
To create a buildout,
$ python bootstrap.py
$ bin/buildout
to test you should have etcd available in your system path:
$ bin/test
to generate documentation,
$ cd docs
$ make
To make a release
- Update release date/version in NEWS.txt and setup.py
- Run 'python setup.py sdist'
- Test the generated source distribution in dist/
- Upload to PyPI: 'python setup.py sdist register upload'