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- .. _tutorial-remote:
- Most of the tests in this file require a Dulwich server, so let's start one:
- >>> from dulwich.repo import Repo
- >>> from dulwich.server import DictBackend, TCPGitServer
- >>> import threading
- >>> repo = Repo.init(b"remote", mkdir=True)
- >>> cid = repo.do_commit(b"message", committer=b"Jelmer <jelmer@samba.org>")
- >>> backend = DictBackend({b'/': repo})
- >>> dul_server = TCPGitServer(backend, b'localhost', 0)
- >>> threading.Thread(target=dul_server.serve).start()
- >>> server_address, server_port=dul_server.socket.getsockname()
- Remote repositories
- ===================
- The interface for remote Git repositories is different from that
- for local repositories.
- The Git smart server protocol provides three basic operations:
- * upload-pack - provides a pack with objects requested by the client
- * receive-pack - imports a pack with objects provided by the client
- * upload-archive - provides a tarball with the contents of a specific revision
- The smart server protocol can be accessed over either plain TCP (git://),
- SSH (git+ssh://) or tunneled over HTTP (http://).
- Dulwich provides support for accessing remote repositories in
- ``dulwich.client``. To create a new client, you can either construct
- one manually::
- >>> from dulwich.client import TCPGitClient
- >>> client = TCPGitClient(server_address.encode('ascii'), server_port)
- Retrieving raw pack files
- -------------------------
- The client object can then be used to retrieve a pack. The ``fetch_pack``
- method takes a ``determine_wants`` callback argument, which allows the
- client to determine which objects it wants to end up with::
- >>> def determine_wants(refs):
- ... # retrieve all objects
- ... return refs.values()
- Another required object is a "graph walker", which is used to determine
- which objects that the client already has should not be sent again
- by the server. Here in the tutorial we'll just use a dummy graph walker
- which claims that the client doesn't have any objects::
- >>> class DummyGraphWalker(object):
- ... def ack(self, sha): pass
- ... def next(self): pass
- ... def __next__(self): pass
- With the ``determine_wants`` function in place, we can now fetch a pack,
- which we will write to a ``BytesIO`` object::
- >>> from io import BytesIO
- >>> f = BytesIO()
- >>> remote_refs = client.fetch_pack(b"/", determine_wants,
- ... DummyGraphWalker(), pack_data=f.write)
- ``f`` will now contain a full pack file::
- >>> print(f.getvalue()[:4].decode('ascii'))
- PACK
- Fetching objects into a local repository
- ----------------------------------------
- It is also possible to fetch from a remote repository into a local repository,
- in which case Dulwich takes care of providing the right graph walker, and
- importing the received pack file into the local repository::
- >>> from dulwich.repo import Repo
- >>> local = Repo.init(b"local", mkdir=True)
- >>> remote_refs = client.fetch(b"/", local)
- Let's shut down the server now that all tests have been run::
- >>> dul_server.shutdown()
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