Exemplo n.º 1
0
def test_fake_dates(path):
    gr = GitRepo(path, create=True, fake_dates=True)

    gr.add("foo")
    gr.commit("commit foo")

    seconds_initial = gr.config.obtain("datalad.fake-dates-start")

    # First commit is incremented by 1 second.
    eq_(seconds_initial + 1, gr.get_commit_date())

    # The second commit by 2.
    gr.add("bar")
    gr.commit("commit bar")
    eq_(seconds_initial + 2, gr.get_commit_date())

    # If we checkout another branch, its time is still based on the latest
    # timestamp in any local branch.
    gr.checkout("other", options=["--orphan"])
    with open(op.join(path, "baz"), "w") as ofh:
        ofh.write("baz content")
    gr.add("baz")
    gr.commit("commit baz")
    eq_(gr.get_active_branch(), "other")
    eq_(seconds_initial + 3, gr.get_commit_date())
Exemplo n.º 2
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def test_GitRepo_ssh_pull(remote_path, repo_path):
    from datalad import ssh_manager

    remote_repo = GitRepo(remote_path, create=True)
    url = "ssh://localhost" + op.abspath(remote_path)
    socket_path = op.join(ssh_manager.socket_dir,
                          get_connection_hash('localhost'))
    repo = GitRepo(repo_path, create=True)
    repo.add_remote("ssh-remote", url)

    # modify remote:
    remote_repo.checkout("ssh-test", ['-b'])
    with open(op.join(remote_repo.path, "ssh_testfile.dat"), "w") as f:
        f.write("whatever")
    remote_repo.add("ssh_testfile.dat")
    remote_repo.commit("ssh_testfile.dat added.")

    # file is not locally known yet:
    assert_not_in("ssh_testfile.dat", repo.get_indexed_files())

    # pull changes:
    repo.pull(remote="ssh-remote", refspec=remote_repo.get_active_branch())
    ok_clean_git(repo.path, annex=False)

    # the connection is known to the SSH manager, since fetch() requested it:
    assert_in(socket_path, ssh_manager._connections)
    # and socket was created:
    ok_(op.exists(socket_path))

    # we actually pulled the changes
    assert_in("ssh_testfile.dat", repo.get_indexed_files())
Exemplo n.º 3
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def test_GitRepo_get_merge_base(src):
    repo = GitRepo(src, create=True)
    with open(op.join(src, 'file.txt'), 'w') as f:
        f.write('load')
    repo.add('*')
    repo.commit('committing')

    assert_raises(ValueError, repo.get_merge_base, [])
    branch1 = repo.get_active_branch()
    branch1_hexsha = repo.get_hexsha()
    eq_(len(branch1_hexsha), 40)
    eq_(repo.get_merge_base(branch1), branch1_hexsha)

    # Let's create a detached branch
    branch2 = "_detach_"
    repo.checkout(branch2, options=["--orphan"])
    # it will have all the files
    # Must not do:  https://github.com/gitpython-developers/GitPython/issues/375
    # repo.git_add('.')
    repo.add('*')
    # NOTE: fun part is that we should have at least a different commit message
    # so it results in a different checksum ;)
    repo.commit("committing again")
    assert(repo.get_indexed_files())  # we did commit
    assert(repo.get_merge_base(branch1) is None)
    assert(repo.get_merge_base([branch2, branch1]) is None)

    # Let's merge them up -- then merge base should match the master
    repo.merge(branch1, allow_unrelated=True)
    eq_(repo.get_merge_base(branch1), branch1_hexsha)

    # if points to some empty/non-existing branch - should also be None
    assert(repo.get_merge_base(['nonexistent', branch2]) is None)
Exemplo n.º 4
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def test_GitRepo_get_merge_base(src):
    repo = GitRepo(src, create=True)
    with open(op.join(src, 'file.txt'), 'w') as f:
        f.write('load')
    repo.add('*')
    repo.commit('committing')

    assert_raises(ValueError, repo.get_merge_base, [])
    branch1 = repo.get_active_branch()
    branch1_hexsha = repo.get_hexsha()
    eq_(len(branch1_hexsha), 40)
    eq_(repo.get_merge_base(branch1), branch1_hexsha)

    # Let's create a detached branch
    branch2 = "_detach_"
    repo.checkout(branch2, options=["--orphan"])
    # it will have all the files
    # Must not do:  https://github.com/gitpython-developers/GitPython/issues/375
    # repo.git_add('.')
    repo.add('*')
    # NOTE: fun part is that we should have at least a different commit message
    # so it results in a different checksum ;)
    repo.commit("committing again")
    assert (repo.get_indexed_files())  # we did commit
    assert (repo.get_merge_base(branch1) is None)
    assert (repo.get_merge_base([branch2, branch1]) is None)

    # Let's merge them up -- then merge base should match the master
    repo.merge(branch1, allow_unrelated=True)
    eq_(repo.get_merge_base(branch1), branch1_hexsha)

    # if points to some empty/non-existing branch - should also be None
    assert (repo.get_merge_base(['nonexistent', branch2]) is None)
Exemplo n.º 5
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def test_GitRepo_ssh_pull(remote_path, repo_path):
    from datalad import ssh_manager

    remote_repo = GitRepo(remote_path, create=True)
    url = "ssh://localhost" + op.abspath(remote_path)
    socket_path = op.join(ssh_manager.socket_dir, get_connection_hash('localhost'))
    repo = GitRepo(repo_path, create=True)
    repo.add_remote("ssh-remote", url)

    # modify remote:
    remote_repo.checkout("ssh-test", ['-b'])
    with open(op.join(remote_repo.path, "ssh_testfile.dat"), "w") as f:
        f.write("whatever")
    remote_repo.add("ssh_testfile.dat")
    remote_repo.commit("ssh_testfile.dat added.")

    # file is not locally known yet:
    assert_not_in("ssh_testfile.dat", repo.get_indexed_files())

    # pull changes:
    repo.pull(remote="ssh-remote", refspec=remote_repo.get_active_branch())
    ok_clean_git(repo.path, annex=False)

    # the connection is known to the SSH manager, since fetch() requested it:
    assert_in(socket_path, ssh_manager._connections)
    # and socket was created:
    ok_(op.exists(socket_path))

    # we actually pulled the changes
    assert_in("ssh_testfile.dat", repo.get_indexed_files())
Exemplo n.º 6
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def test_fake_dates(path):
    gr = GitRepo(path, create=True, fake_dates=True)

    gr.add("foo")
    gr.commit("commit foo")

    seconds_initial = gr.config.obtain("datalad.fake-dates-start")

    # First commit is incremented by 1 second.
    eq_(seconds_initial + 1, gr.get_commit_date())

    # The second commit by 2.
    gr.add("bar")
    gr.commit("commit bar")
    eq_(seconds_initial + 2, gr.get_commit_date())

    # If we checkout another branch, its time is still based on the latest
    # timestamp in any local branch.
    gr.checkout("other", options=["--orphan"])
    with open(op.join(path, "baz"), "w") as ofh:
        ofh.write("baz content")
    gr.add("baz")
    gr.commit("commit baz")
    eq_(gr.get_active_branch(), "other")
    eq_(seconds_initial + 3, gr.get_commit_date())
Exemplo n.º 7
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def test_publish_simple(origin, src_path, dst_path):

    # prepare src
    source = install(src_path, source=origin, recursive=True)
    # forget we cloned it (provide no 'origin' anymore), which should lead to
    # setting tracking branch to target:
    source.repo.remove_remote("origin")

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    res = publish(dataset=source, to="target", result_xfm='datasets')
    eq_(res, [source])

    ok_clean_git(source.repo, annex=None)
    ok_clean_git(target, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))

    # don't fail when doing it again
    res = publish(dataset=source, to="target")
    # and nothing is pushed
    assert_result_count(res, 1, status='notneeded')

    ok_clean_git(source.repo, annex=None)
    ok_clean_git(target, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))

    # 'target/master' should be tracking branch at this point, so
    # try publishing without `to`:
    # MIH: Nope, we don't automatically add this anymore

    # some modification:
    with open(opj(src_path, 'test_mod_file'), "w") as f:
        f.write("Some additional stuff.")
    source.add(opj(src_path, 'test_mod_file'),
               to_git=True,
               message="Modified.")
    ok_clean_git(source.repo, annex=None)

    res = publish(dataset=source, to='target', result_xfm='datasets')
    eq_(res, [source])

    ok_clean_git(dst_path, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    # Since git-annex 6.20170220, post-receive hook gets triggered
    # which results in entry being added for that repo into uuid.log on remote
    # end since then finally git-annex senses that it needs to init that remote,
    # so it might have 1 more commit than local.
    # see https://github.com/datalad/datalad/issues/1319
    ok_(
        set(source.repo.get_branch_commits("git-annex")).issubset(
            set(target.get_branch_commits("git-annex"))))
Exemplo n.º 8
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def test_publish_simple(origin, src_path, dst_path):

    # prepare src
    source = install(src_path, source=origin, recursive=True)
    # forget we cloned it (provide no 'origin' anymore), which should lead to
    # setting tracking branch to target:
    source.repo.remove_remote("origin")

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    res = publish(dataset=source, to="target", result_xfm='datasets')
    eq_(res, [source])

    ok_clean_git(source.repo, annex=None)
    ok_clean_git(target, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))

    # don't fail when doing it again
    res = publish(dataset=source, to="target")
    # and nothing is pushed
    assert_result_count(res, 1, status='notneeded')

    ok_clean_git(source.repo, annex=None)
    ok_clean_git(target, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))

    # 'target/master' should be tracking branch at this point, so
    # try publishing without `to`:
    # MIH: Nope, we don't automatically add this anymore

    # some modification:
    with open(opj(src_path, 'test_mod_file'), "w") as f:
        f.write("Some additional stuff.")
    source.add(opj(src_path, 'test_mod_file'), to_git=True,
               message="Modified.")
    ok_clean_git(source.repo, annex=None)

    res = publish(dataset=source, to='target', result_xfm='datasets')
    eq_(res, [source])

    ok_clean_git(dst_path, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    # Since git-annex 6.20170220, post-receive hook gets triggered
    # which results in entry being added for that repo into uuid.log on remote
    # end since then finally git-annex senses that it needs to init that remote,
    # so it might have 1 more commit than local.
    # see https://github.com/datalad/datalad/issues/1319
    ok_(set(source.repo.get_branch_commits("git-annex")).issubset(
        set(target.get_branch_commits("git-annex"))))
Exemplo n.º 9
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def test_publish_simple(origin, src_path, dst_path):

    # prepare src
    source = install(src_path, source=origin, recursive=True)
    # forget we cloned it (provide no 'origin' anymore), which should lead to
    # setting tracking branch to target:
    source.repo.remove_remote("origin")

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    res = publish(dataset=source, to="target", result_xfm='datasets')
    eq_(res, [source])

    assert_repo_status(source.repo, annex=None)
    assert_repo_status(target, annex=None)
    eq_(list(target.get_branch_commits_(DEFAULT_BRANCH)),
        list(source.repo.get_branch_commits_(DEFAULT_BRANCH)))

    # don't fail when doing it again
    res = publish(dataset=source, to="target")
    # and nothing is pushed
    assert_result_count(res, 1, status='notneeded')

    assert_repo_status(source.repo, annex=None)
    assert_repo_status(target, annex=None)
    eq_(list(target.get_branch_commits_(DEFAULT_BRANCH)),
        list(source.repo.get_branch_commits_(DEFAULT_BRANCH)))
    assert_git_annex_branch_published(source.repo, target)

    # 'target/<default branch>' should be tracking branch at this point, so
    # try publishing without `to`:
    # MIH: Nope, we don't automatically add this anymore

    # some modification:
    with open(opj(src_path, 'test_mod_file'), "w") as f:
        f.write("Some additional stuff.")
    source.save(opj(src_path, 'test_mod_file'),
                to_git=True,
                message="Modified.")
    assert_repo_status(source.repo, annex=None)

    res = publish(dataset=source, to='target', result_xfm='datasets')
    eq_(res, [source])

    assert_repo_status(dst_path, annex=None)
    eq_(list(target.get_branch_commits_(DEFAULT_BRANCH)),
        list(source.repo.get_branch_commits_(DEFAULT_BRANCH)))
    assert_git_annex_branch_published(source.repo, target)

    eq_(filter_fsck_error_msg(source.repo.fsck()),
        filter_fsck_error_msg(source.repo.fsck(remote='target')))
Exemplo n.º 10
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def test_publish_plain_git(origin, src_path, dst_path):
    # TODO: Since it's mostly the same, melt with test_publish_simple

    # prepare src
    source = install(src_path, source=origin, recursive=True)
    # forget we cloned it (provide no 'origin' anymore), which should lead to
    # setting tracking branch to target:
    source.repo.remove_remote("origin")

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    res = publish(dataset=source, to="target", result_xfm='datasets')
    eq_(res, [source])

    ok_clean_git(source.repo, annex=None)
    ok_clean_git(target, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))

    # don't fail when doing it again
    res = publish(dataset=source, to="target")
    # and nothing is pushed
    assert_result_count(res, 1, status='notneeded')

    ok_clean_git(source.repo, annex=None)
    ok_clean_git(target, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))

    # some modification:
    with open(opj(src_path, 'test_mod_file'), "w") as f:
        f.write("Some additional stuff.")
    source.add(opj(src_path, 'test_mod_file'), to_git=True,
               message="Modified.")
    ok_clean_git(source.repo, annex=None)

    res = publish(dataset=source, to='target', result_xfm='datasets')
    eq_(res, [source])

    ok_clean_git(dst_path, annex=None)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))

    # amend and change commit msg in order to test for force push:
    source.repo.commit("amended", options=['--amend'])
    # push should be rejected (non-fast-forward):
    assert_raises(IncompleteResultsError,
                  publish, dataset=source, to='target', result_xfm='datasets')
    # push with force=True works:
    res = publish(dataset=source, to='target', result_xfm='datasets', force=True)
    eq_(res, [source])
Exemplo n.º 11
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def test_publish_simple(origin, src_path, dst_path):

    # prepare src
    source = install(src_path, source=origin, recursive=True)[0]
    # forget we cloned it (provide no 'origin' anymore), which should lead to
    # setting tracking branch to target:
    source.repo.remove_remote("origin")

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    res = publish(dataset=source, to="target")
    eq_(res, ([source], []))

    ok_clean_git(src_path, annex=False)
    ok_clean_git(dst_path, annex=False)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))

    # don't fail when doing it again
    res = publish(dataset=source, to="target")
    eq_(res, ([source], []))

    ok_clean_git(src_path, annex=False)
    ok_clean_git(dst_path, annex=False)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))

    # 'target/master' should be tracking branch at this point, so
    # try publishing without `to`:

    # some modification:
    with open(opj(src_path, 'test_mod_file'), "w") as f:
        f.write("Some additional stuff.")
    source.repo.add(opj(src_path, 'test_mod_file'),
                    git=True,
                    commit=True,
                    msg="Modified.")
    ok_clean_git(src_path, annex=False)

    res = publish(dataset=source)
    eq_(res, ([source], []))

    ok_clean_git(dst_path, annex=False)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))
Exemplo n.º 12
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def test_GitRepo_push_n_checkout(orig_path, clone_path):

    origin = GitRepo(orig_path)
    clone = GitRepo.clone(orig_path, clone_path)
    filename = get_most_obscure_supported_name()

    with open(op.join(clone_path, filename), 'w') as f:
        f.write("New file.")
    clone.add(filename)
    clone.commit("new file added.")
    # TODO: need checkout first:
    clone.push('origin', '+master:new-branch')
    origin.checkout('new-branch')
    ok_(op.exists(op.join(orig_path, filename)))
Exemplo n.º 13
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def test_publish_simple(origin, src_path, dst_path):

    # prepare src
    source = install(src_path, source=origin, recursive=True)[0]
    # forget we cloned it (provide no 'origin' anymore), which should lead to
    # setting tracking branch to target:
    source.repo.remove_remote("origin")

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    res = publish(dataset=source, to="target")
    eq_(res, ([source], []))

    ok_clean_git(src_path, annex=False)
    ok_clean_git(dst_path, annex=False)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))

    # don't fail when doing it again
    res = publish(dataset=source, to="target")
    eq_(res, ([source], []))

    ok_clean_git(src_path, annex=False)
    ok_clean_git(dst_path, annex=False)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))

    # 'target/master' should be tracking branch at this point, so
    # try publishing without `to`:

    # some modification:
    with open(opj(src_path, 'test_mod_file'), "w") as f:
        f.write("Some additional stuff.")
    source.repo.add(opj(src_path, 'test_mod_file'), git=True,
                    commit=True, msg="Modified.")
    ok_clean_git(src_path, annex=False)

    res = publish(dataset=source)
    eq_(res, ([source], []))

    ok_clean_git(dst_path, annex=False)
    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))
Exemplo n.º 14
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def test_GitRepo_push_n_checkout(orig_path, clone_path):

    origin = GitRepo(orig_path)
    clone = GitRepo.clone(orig_path, clone_path)
    filename = get_most_obscure_supported_name()

    with open(op.join(clone_path, filename), 'w') as f:
        f.write("New file.")
    clone.add(filename)
    clone.commit("new file added.")
    # TODO: need checkout first:
    clone.push('origin', '+master:new-branch')
    origin.checkout('new-branch')
    ok_(op.exists(op.join(orig_path, filename)))
Exemplo n.º 15
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def test_GitRepo_ssh_push(repo_path, remote_path):
    from datalad import ssh_manager

    remote_repo = GitRepo(remote_path, create=True)
    url = "ssh://localhost" + op.abspath(remote_path)
    socket_path = op.join(ssh_manager.socket_dir,
                          get_connection_hash('localhost'))
    repo = GitRepo(repo_path, create=True)
    repo.add_remote("ssh-remote", url)

    # modify local repo:
    repo.checkout("ssh-test", ['-b'])
    with open(op.join(repo.path, "ssh_testfile.dat"), "w") as f:
        f.write("whatever")
    repo.add("ssh_testfile.dat")
    repo.commit("ssh_testfile.dat added.")

    # file is not known to the remote yet:
    assert_not_in("ssh_testfile.dat", remote_repo.get_indexed_files())

    # push changes:
    pushed = repo.push(remote="ssh-remote", refspec="ssh-test")
    # test PushInfo object for
    assert_in("ssh-remote/ssh-test",
              [commit.remote_ref.name for commit in pushed])

    # the connection is known to the SSH manager, since fetch() requested it:
    assert_in(socket_path, ssh_manager._connections)
    # and socket was created:
    ok_(op.exists(socket_path))

    # remote now knows the changes:
    assert_in("ssh-test", remote_repo.get_branches())
    assert_in("ssh_testfile.dat", remote_repo.get_files("ssh-test"))

    # amend to make it require "--force":
    repo.commit("amended", options=['--amend'])
    # push without --force should yield an error:
    pushed = repo.push(remote="ssh-remote", refspec="ssh-test")
    assert_in("[rejected] (non-fast-forward)", pushed[0].summary)
    # now push using force:
    repo.push(remote="ssh-remote", refspec="ssh-test", force=True)
    # correct commit message in remote:
    assert_in("amended",
              list(remote_repo.get_branch_commits('ssh-test'))[-1].summary)
Exemplo n.º 16
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def test_get_commit_date(path):
    gr = GitRepo(path, create=True)
    eq_(gr.get_commit_date(), None)

    # Let's make a commit with a custom date
    DATE = "Wed Mar 14 03:47:30 2018 -0000"
    DATE_EPOCH = 1520999250
    gr.add('1')
    gr.commit("committed", date=DATE)
    gr = GitRepo(path, create=True)
    date = gr.get_commit_date()
    neq_(date, None)
    eq_(date, DATE_EPOCH)

    eq_(date, gr.get_commit_date('master'))
    # and even if we get into a detached head
    gr.checkout(gr.get_hexsha())
    eq_(gr.get_active_branch(), None)
    eq_(date, gr.get_commit_date('master'))
Exemplo n.º 17
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def test_GitRepo_ssh_push(repo_path, remote_path):
    from datalad import ssh_manager

    remote_repo = GitRepo(remote_path, create=True)
    url = "ssh://localhost" + op.abspath(remote_path)
    socket_path = op.join(ssh_manager.socket_dir, get_connection_hash('localhost'))
    repo = GitRepo(repo_path, create=True)
    repo.add_remote("ssh-remote", url)

    # modify local repo:
    repo.checkout("ssh-test", ['-b'])
    with open(op.join(repo.path, "ssh_testfile.dat"), "w") as f:
        f.write("whatever")
    repo.add("ssh_testfile.dat")
    repo.commit("ssh_testfile.dat added.")

    # file is not known to the remote yet:
    assert_not_in("ssh_testfile.dat", remote_repo.get_indexed_files())

    # push changes:
    pushed = repo.push(remote="ssh-remote", refspec="ssh-test")
    # test PushInfo object for
    assert_in("ssh-remote/ssh-test", [commit.remote_ref.name for commit in pushed])

    # the connection is known to the SSH manager, since fetch() requested it:
    assert_in(socket_path, ssh_manager._connections)
    # and socket was created:
    ok_(op.exists(socket_path))

    # remote now knows the changes:
    assert_in("ssh-test", remote_repo.get_branches())
    assert_in("ssh_testfile.dat", remote_repo.get_files("ssh-test"))

    # amend to make it require "--force":
    repo.commit("amended", options=['--amend'])
    # push without --force should yield an error:
    pushed = repo.push(remote="ssh-remote", refspec="ssh-test")
    assert_in("[rejected] (non-fast-forward)", pushed[0].summary)
    # now push using force:
    repo.push(remote="ssh-remote", refspec="ssh-test", force=True)
    # correct commit message in remote:
    assert_in("amended",
              list(remote_repo.get_branch_commits('ssh-test'))[-1].summary)
Exemplo n.º 18
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def test_get_commit_date(path):
    gr = GitRepo(path, create=True)
    eq_(gr.get_commit_date(), None)

    # Let's make a commit with a custom date
    DATE = "Wed Mar 14 03:47:30 2018 -0000"
    DATE_EPOCH = 1520999250
    gr.add('1')
    gr.commit("committed", date=DATE)
    gr = GitRepo(path, create=True)
    date = gr.get_commit_date()
    neq_(date, None)
    eq_(date, DATE_EPOCH)

    eq_(date, gr.get_commit_date('master'))
    # and even if we get into a detached head
    gr.checkout(gr.get_hexsha())
    eq_(gr.get_active_branch(), None)
    eq_(date, gr.get_commit_date('master'))
Exemplo n.º 19
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def test_GitRepo_remote_update(path1, path2, path3):

    git1 = GitRepo(path1)
    git2 = GitRepo(path2)
    git3 = GitRepo(path3)

    git1.add_remote('git2', path2)
    git1.add_remote('git3', path3)

    # Setting up remote 'git2'
    with open(op.join(path2, 'masterfile'), 'w') as f:
        f.write("git2 in master")
    git2.add('masterfile')
    git2.commit("Add something to master.")
    git2.checkout('branch2', ['-b'])
    with open(op.join(path2, 'branch2file'), 'w') as f:
        f.write("git2 in branch2")
    git2.add('branch2file')
    git2.commit("Add something to branch2.")

    # Setting up remote 'git3'
    with open(op.join(path3, 'masterfile'), 'w') as f:
        f.write("git3 in master")
    git3.add('masterfile')
    git3.commit("Add something to master.")
    git3.checkout('branch3', ['-b'])
    with open(op.join(path3, 'branch3file'), 'w') as f:
        f.write("git3 in branch3")
    git3.add('branch3file')
    git3.commit("Add something to branch3.")

    git1.update_remote()

    # checkouts are 'tests' themselves, since they'll raise CommandError
    # if something went wrong
    git1.checkout('branch2')
    git1.checkout('branch3')

    branches1 = git1.get_branches()
    eq_({'branch2', 'branch3'}, set(branches1))
Exemplo n.º 20
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def test_GitRepo_remote_update(path1, path2, path3):

    git1 = GitRepo(path1)
    git2 = GitRepo(path2)
    git3 = GitRepo(path3)

    git1.add_remote('git2', path2)
    git1.add_remote('git3', path3)

    # Setting up remote 'git2'
    with open(op.join(path2, 'masterfile'), 'w') as f:
        f.write("git2 in master")
    git2.add('masterfile')
    git2.commit("Add something to master.")
    git2.checkout('branch2', ['-b'])
    with open(op.join(path2, 'branch2file'), 'w') as f:
        f.write("git2 in branch2")
    git2.add('branch2file')
    git2.commit("Add something to branch2.")

    # Setting up remote 'git3'
    with open(op.join(path3, 'masterfile'), 'w') as f:
        f.write("git3 in master")
    git3.add('masterfile')
    git3.commit("Add something to master.")
    git3.checkout('branch3', ['-b'])
    with open(op.join(path3, 'branch3file'), 'w') as f:
        f.write("git3 in branch3")
    git3.add('branch3file')
    git3.commit("Add something to branch3.")

    git1.update_remote()

    # checkouts are 'tests' themselves, since they'll raise CommandError
    # if something went wrong
    git1.checkout('branch2')
    git1.checkout('branch3')

    branches1 = git1.get_branches()
    eq_({'branch2', 'branch3'}, set(branches1))
Exemplo n.º 21
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def test_publish_with_data(origin, src_path, dst_path, sub1_pub, sub2_pub):

    # prepare src
    source = install(src_path, source=origin, recursive=True)[0]
    source.repo.get('test-annex.dat')

    # create plain git at target:
    target = AnnexRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = GitRepo(sub2_pub, create=True)
    sub2_target.checkout("TMP", ["-b"])
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, 'subm 2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # TMP: Insert the fetch to prevent GitPython to fail after the push,
    # because it cannot resolve the SHA of the old commit of the remote,
    # that git reports back after the push.
    # TODO: Figure out, when to fetch things in general; Alternatively:
    # Is there an option for push, that prevents GitPython from failing?
    source.repo.fetch("target")

    res = publish(dataset=source, to="target", path=['test-annex.dat'])
    eq_(res, ([source, 'test-annex.dat'], []))

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    # TODO: last commit in git-annex branch differs. Probably fine,
    # but figure out, when exactly to expect this for proper testing:
    eq_(
        list(target.get_branch_commits("git-annex"))[1:],
        list(source.repo.get_branch_commits("git-annex"))[1:])

    # we need compare target/master:
    target.checkout("master")
    eq_(target.file_has_content(['test-annex.dat']), [True])

    source.repo.fetch("target")
    res = publish(dataset=source, to="target", path=['.'])
    eq_(res, ([source, 'test-annex.dat'], []))

    source.repo.fetch("target")
    import glob
    res = publish(dataset=source,
                  to="target",
                  path=glob.glob1(source.path, '*'))
    # Note: This leads to recursive publishing, since expansion of '*'
    #       contains the submodules themselves in this setup

    # collect result paths:
    result_paths = []
    for item in res[0]:
        if isinstance(item, Dataset):
            result_paths.append(item.path)
        else:
            result_paths.append(item)
    eq_(
        {
            source.path,
            opj(source.path, "subm 1"),
            opj(source.path, "subm 2"), 'test-annex.dat'
        }, set(result_paths))
Exemplo n.º 22
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def test_publish_with_data(origin, src_path, dst_path, sub1_pub, sub2_pub, dst_clone_path):

    # prepare src
    source = install(src_path, source=origin, recursive=True)
    source.repo.get('test-annex.dat')

    # create plain git at target:
    target = AnnexRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = GitRepo(sub2_pub, create=True)
    sub2_target.checkout("TMP", ["-b"])
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, 'subm 2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # TMP: Insert the fetch to prevent GitPython to fail after the push,
    # because it cannot resolve the SHA of the old commit of the remote,
    # that git reports back after the push.
    # TODO: Figure out, when to fetch things in general; Alternatively:
    # Is there an option for push, that prevents GitPython from failing?
    source.repo.fetch("target")
    res = publish(dataset=source, to="target", path=['test-annex.dat'])
    # first it would publish data and then push
    eq_(res, (['test-annex.dat', source], []))
    # XXX master was not checked out in dst!

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    # TODO: last commit in git-annex branch differs. Probably fine,
    # but figure out, when exactly to expect this for proper testing:
    # yoh: they differ because local annex records information about now
    # file being available in that remote, and remote one does it via a call in
    # the hook I guess.  So they both get the same information but in two
    # different commits.  I do not observe such behavior of remote having git-annex
    # automagically updated in older clones
    # which do not have post-receive hook on remote side
    eq_(list(target.get_branch_commits("git-annex"))[1:],
        list(source.repo.get_branch_commits("git-annex"))[1:])

    # we need compare target/master:
    target.checkout("master")
    ok_(target.file_has_content('test-annex.dat'))

    # make sure that whatever we published is actually consumable
    dst_clone = install(
        dst_clone_path, source=dst_path,
        result_xfm='datasets', return_type='item-or-list')
    nok_(dst_clone.repo.file_has_content('test-annex.dat'))
    res = dst_clone.get('test-annex.dat')
    ok_(dst_clone.repo.file_has_content('test-annex.dat'))

    source.repo.fetch("target")
    res = publish(dataset=source, to="target", path=['.'])
    # there is nothing to publish on 2nd attempt
    #eq_(res, ([source, 'test-annex.dat'], []))
    eq_(res, ([], []))

    source.repo.fetch("target")
    import glob
    res = publish(dataset=source, to="target", path=glob.glob1(source.path, '*'))
    # Note: This leads to recursive publishing, since expansion of '*'
    #       contains the submodules themselves in this setup

    # collect result paths:
    result_paths = []
    for item in res[0]:
        result_paths.append(item.path if isinstance(item, Dataset) else item)

    # only the subdatasets, targets are plain git repos, hence
    # no file content is pushed, all content in super was pushed
    # before
    eq_({sub1.path, sub2.path},
        set(result_paths))

    # if we publish again -- nothing to be published
    eq_(source.publish(to="target"), ([], []))
    # if we drop a file and publish again -- dataset should be published
    # since git-annex branch was updated
    source.drop('test-annex.dat')
    eq_(source.publish(to="target"), ([source], []))
    eq_(source.publish(to="target"), ([], []))  # and empty again if we try again
Exemplo n.º 23
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def test_publish_recursive(pristine_origin, origin_path, src_path, dst_path, sub1_pub, sub2_pub):

    # we will be publishing back to origin, so to not alter testrepo
    # we will first clone it
    origin = install(origin_path, source=pristine_origin, recursive=True)
    # prepare src
    source = install(src_path, source=origin_path, recursive=True)

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # subdatasets have no remote yet, so recursive publishing should fail:
    with assert_raises(ValueError) as cm:
        publish(dataset=source, to="target", recursive=True)
    assert_in("Unknown target sibling 'target'", exc_str(cm.exception))

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = AnnexRepo(sub2_pub, create=True)
    # we will be testing presence of the file content, so let's make it progress
    sub2_target.config.set('receive.denyCurrentBranch', 'updateInstead', where='local')
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, 'subm 2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # publish recursively
    with swallow_logs(new_level=logging.DEBUG) as cml:
        res = publish(dataset=source, to="target", recursive=True)
        assert_not_in(
            'forced update', cml.out,
            "we probably haven't merged git-annex before pushing"
        )

    # testing result list
    # (Note: Dataset lacks __eq__ for now. Should this be based on path only?)
    assert_is_instance(res, tuple)
    assert_is_instance(res[0], list)
    assert_is_instance(res[1], list)
    eq_(res[1], [])  # nothing failed/was skipped
    for item in res[0]:
        assert_is_instance(item, Dataset)
    eq_({res[0][0].path, res[0][1].path, res[0][2].path},
        {src_path, sub1.path, sub2.path})

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))
    eq_(list(sub1_target.get_branch_commits("master")),
        list(sub1.get_branch_commits("master")))
    eq_(list(sub1_target.get_branch_commits("git-annex")),
        list(sub1.get_branch_commits("git-annex")))
    eq_(list(sub2_target.get_branch_commits("master")),
        list(sub2.get_branch_commits("master")))
    eq_(list(sub2_target.get_branch_commits("git-annex")),
        list(sub2.get_branch_commits("git-annex")))

    # we are tracking origin but origin has different git-annex, since we
    # cloned from it, so it is not aware of our git-annex
    neq_(list(origin.repo.get_branch_commits("git-annex")),
         list(source.repo.get_branch_commits("git-annex")))
    # So if we first publish to it recursively, we would update
    # all sub-datasets since git-annex branch would need to be pushed
    res_ = publish(dataset=source, recursive=True)
    eq_(set(r.path for r in res_[0]),
        set(opj(*([source.path] + x)) for x in ([], ['subm 1'], ['subm 2'])))
    # and now should carry the same state for git-annex
    eq_(list(origin.repo.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))

    # test for publishing with  --since.  By default since no changes, nothing pushed
    res_ = publish(dataset=source, recursive=True)
    eq_(set(r.path for r in res_[0]), set())

    # still nothing gets pushed, because origin is up to date
    res_ = publish(dataset=source, recursive=True, since='HEAD^')
    eq_(set(r.path for r in res_[0]), set([]))

    # and we should not fail if we run it from within the dataset
    with chpwd(source.path):
        res_ = publish(recursive=True, since='HEAD^')
        eq_(set(r.path for r in res_[0]), set([]))

    # Let's now update one subm
    with open(opj(sub2.path, "file.txt"), 'w') as f:
        f.write('')
    # add to subdataset, does not alter super dataset!
    # MIH: use `to_git` because original test author used
    # and explicit `GitRepo.add` -- keeping this for now
    Dataset(sub2.path).add('file.txt', to_git=True)

    # Let's now update one subm
    create_tree(sub2.path, {'file.dat': 'content'})
    # add to subdataset, without reflecting the change in its super(s)
    Dataset(sub2.path).add('file.dat')

    # note: will publish to origin here since that is what it tracks
    res_published, res_skipped = publish(dataset=source, recursive=True)
    # only updates published, i.e. just the subdataset, super wasn't altered
    # nothing copied!
    eq_(res_published, [Dataset(sub2.path)])
    eq_(res_skipped, [])

    # since published to origin -- destination should not get that file
    nok_(lexists(opj(sub2_target.path, 'file.dat')))
    res_published, res_skipped = publish(dataset=source, to='target', recursive=True)
    eq_(res_published, [Dataset(sub2.path)])
    # Note: with updateInstead only in target2 and not saving change in
    # super-dataset we would have made remote dataset, if we had entire
    # hierarchy, to be somewhat inconsistent.
    # But here, since target datasets are independent -- it is ok

    # and the file itself was not transferred but now exists
    ok_(lexists(opj(sub2_target.path, 'file.dat')))
    nok_(sub2_target.file_has_content('file.dat'))

    # but now we can redo publish recursively, at least stating to consider
    # explicitly to copy .
    res_published, res_skipped = publish(
        '.',
        dataset=source, to='target',
        recursive=True
    )
    ok_(sub2_target.file_has_content('file.dat'))
    eq_(res_published, ['file.dat'])  # note that this report makes little sense without path to the repository
Exemplo n.º 24
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def test_publish_recursive(pristine_origin, origin_path, src_path, dst_path,
                           sub1_pub, sub2_pub):

    # we will be publishing back to origin, so to not alter testrepo
    # we will first clone it
    origin = install(origin_path, source=pristine_origin, recursive=True)
    # prepare src
    source = install(src_path, source=origin.path, recursive=True)
    # we will be trying to push into this later on, need to give permissions...
    origin_sub2 = Dataset(opj(origin_path, '2'))
    origin_sub2.config.set('receive.denyCurrentBranch',
                           'updateInstead',
                           where='local')
    ## TODO this manual fixup is needed due to gh-1548 -- needs proper solution
    #os.remove(opj(origin_sub2.path, '.git'))
    #os.rename(opj(origin_path, '.git', 'modules', '2'), opj(origin_sub2.path, '.git'))

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # subdatasets have no remote yet, so recursive publishing should fail:
    res = publish(dataset=source,
                  to="target",
                  recursive=True,
                  on_failure='ignore')
    assert_result_count(res, 3)
    assert_result_count(res, 1, status='ok', type='dataset', path=source.path)
    assert_result_count(res,
                        2,
                        status='error',
                        message=("Unknown target sibling '%s' for publication",
                                 'target'))

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = AnnexRepo(sub2_pub, create=True)
    # we will be testing presence of the file content, so let's make it progress
    sub2_target.config.set('receive.denyCurrentBranch',
                           'updateInstead',
                           where='local')
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, '2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # publish recursively
    with swallow_logs(new_level=logging.DEBUG) as cml:
        res = publish(dataset=source, to="target", recursive=True)
        assert_not_in('forced update', cml.out,
                      "we probably haven't merged git-annex before pushing")

    # testing result list
    # base dataset was already published above, notneeded again
    assert_status(('ok', 'notneeded'), res)  # nothing failed
    assert_result_count(res, 3, type='dataset')
    eq_({r['path'] for r in res}, {src_path, sub1.path, sub2.path})

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))
    eq_(list(sub1_target.get_branch_commits("master")),
        list(sub1.get_branch_commits("master")))
    eq_(list(sub1_target.get_branch_commits("git-annex")),
        list(sub1.get_branch_commits("git-annex")))
    eq_(list(sub2_target.get_branch_commits("master")),
        list(sub2.get_branch_commits("master")))
    eq_(list(sub2_target.get_branch_commits("git-annex")),
        list(sub2.get_branch_commits("git-annex")))

    # we are tracking origin but origin has different git-annex, since we
    # cloned from it, so it is not aware of our git-annex
    neq_(list(origin.repo.get_branch_commits("git-annex")),
         list(source.repo.get_branch_commits("git-annex")))
    # So if we first publish to it recursively, we would update
    # all sub-datasets since git-annex branch would need to be pushed
    res_ = publish(dataset=source, recursive=True)
    assert_result_count(res_, 1, status='ok', path=source.path)
    assert_result_count(res_, 1, status='ok', path=sub1.path)
    assert_result_count(res_, 1, status='ok', path=sub2.path)
    # and now should carry the same state for git-annex
    eq_(list(origin.repo.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))

    # test for publishing with  --since.  By default since no changes, nothing pushed
    res_ = publish(dataset=source, recursive=True)
    assert_result_count(res_, 3, status='notneeded', type='dataset')

    # still nothing gets pushed, because origin is up to date
    res_ = publish(dataset=source, recursive=True, since='HEAD^')
    assert_result_count(res_, 3, status='notneeded', type='dataset')

    # and we should not fail if we run it from within the dataset
    with chpwd(source.path):
        res_ = publish(recursive=True, since='HEAD^')
        assert_result_count(res_, 3, status='notneeded', type='dataset')

    # Let's now update one subm
    with open(opj(sub2.path, "file.txt"), 'w') as f:
        f.write('')
    # add to subdataset, does not alter super dataset!
    # MIH: use `to_git` because original test author used
    # and explicit `GitRepo.add` -- keeping this for now
    Dataset(sub2.path).add('file.txt', to_git=True)

    # Let's now update one subm
    create_tree(sub2.path, {'file.dat': 'content'})
    # add to subdataset, without reflecting the change in its super(s)
    Dataset(sub2.path).add('file.dat')

    # note: will publish to origin here since that is what it tracks
    res_ = publish(dataset=source, recursive=True, on_failure='ignore')
    ## only updates published, i.e. just the subdataset, super wasn't altered
    ## nothing copied!
    assert_status(('ok', 'notneeded'), res_)
    assert_result_count(res_, 1, status='ok', path=sub2.path, type='dataset')
    assert_result_count(res_, 0, path=opj(sub2.path, 'file.dat'), type='file')

    # since published to origin -- destination should not get that file
    nok_(lexists(opj(sub2_target.path, 'file.dat')))
    res_ = publish(dataset=source, to='target', recursive=True)
    assert_status(('ok', 'notneeded'), res_)
    assert_result_count(res_, 1, status='ok', path=sub2.path, type='dataset')
    assert_result_count(res_, 0, path=opj(sub2.path, 'file.dat'), type='file')

    # Note: with updateInstead only in target2 and not saving change in
    # super-dataset we would have made remote dataset, if we had entire
    # hierarchy, to be somewhat inconsistent.
    # But here, since target datasets are independent -- it is ok

    # and the file itself was transferred
    ok_(lexists(opj(sub2_target.path, 'file.dat')))
    nok_(sub2_target.file_has_content('file.dat'))

    ## but now we can redo publish recursively, with explicitly requested data transfer
    res_ = publish(dataset=source,
                   to='target',
                   recursive=True,
                   transfer_data='all')
    ok_(sub2_target.file_has_content('file.dat'))
    assert_result_count(res_, 1, status='ok', path=opj(sub2.path, 'file.dat'))

    # Let's save those present changes and publish while implying "since last
    # merge point"
    source.save(message="Changes in subm2")
    # and test if it could deduce the remote/branch to push to
    source.config.set('branch.master.remote', 'target', where='local')
    with chpwd(source.path):
        res_ = publish(since='', recursive=True)
    # TODO: somehow test that there were no even attempt to diff within "subm 1"
    # since if `--since=''` worked correctly, nothing has changed there and it
    # should have not been even touched
    assert_status(('ok', 'notneeded'), res_)
    assert_result_count(res_, 1, status='ok', path=source.path, type='dataset')
Exemplo n.º 25
0
def test_publish_recursive(origin, src_path, dst_path, sub1_pub, sub2_pub):

    # prepare src
    source = install(src_path, source=origin, recursive=True)[0]

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # subdatasets have no remote yet, so recursive publishing should fail:
    with assert_raises(ValueError) as cm:
        publish(dataset=source, to="target", recursive=True)
    assert_in("No sibling 'target' found", exc_str(cm.exception))

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = AnnexRepo(sub2_pub, create=True)
    sub2_target.checkout("TMP", ["-b"])
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, 'subm 2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # publish recursively
    with swallow_logs(new_level=logging.DEBUG) as cml:
        res = publish(dataset=source, to="target", recursive=True)
        assert_not_in(
            'forced update', cml.out,
            "we probably haven't merged git-annex before pushing"
        )

    # testing result list
    # (Note: Dataset lacks __eq__ for now. Should this be based on path only?)
    assert_is_instance(res, tuple)
    assert_is_instance(res[0], list)
    assert_is_instance(res[1], list)
    eq_(res[1], [])  # nothing failed/was skipped
    for item in res[0]:
        assert_is_instance(item, Dataset)
    eq_({res[0][0].path, res[0][1].path, res[0][2].path},
        {src_path, sub1.path, sub2.path})

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))
    eq_(list(sub1_target.get_branch_commits("master")),
        list(sub1.get_branch_commits("master")))
    eq_(list(sub1_target.get_branch_commits("git-annex")),
        list(sub1.get_branch_commits("git-annex")))
    eq_(list(sub2_target.get_branch_commits("master")),
        list(sub2.get_branch_commits("master")))
    eq_(list(sub2_target.get_branch_commits("git-annex")),
        list(sub2.get_branch_commits("git-annex")))

    # test for publishing with  --since.  By default since no changes, only current pushed
    res_ = publish(dataset=source, recursive=True)
    # only current one would get pushed
    eq_(set(r.path for r in res_[0]), {src_path})

    # all get pushed
    res_ = publish(dataset=source, recursive=True, since='HEAD^')
    eq_(set(r.path for r in res_[0]), {src_path, sub1.path, sub2.path})

    # Let's now update one subm
    with open(opj(sub2.path, "file.txt"), 'w') as f:
        f.write('')
    sub2.add('file.txt')
    sub2.commit("")
    # TODO: Doesn't work:  https://github.com/datalad/datalad/issues/636
    #source.save("changed sub2", all_changes=True)
    source.repo.commit("", options=['-a'])

    res_ = publish(dataset=source, recursive=True)
    # only updated ones were published
    eq_(set(r.path for r in res_[0]), {src_path, sub2.path})
Exemplo n.º 26
0
def test_publish_recursive(pristine_origin, origin_path, src_path, dst_path, sub1_pub, sub2_pub):

    # we will be publishing back to origin, so to not alter testrepo
    # we will first clone it
    origin = install(origin_path, source=pristine_origin, recursive=True)
    # prepare src
    source = install(src_path, source=origin.path, recursive=True)
    # we will be trying to push into this later on, need to give permissions...
    origin_sub2 = Dataset(opj(origin_path, '2'))
    origin_sub2.config.set(
        'receive.denyCurrentBranch', 'updateInstead', where='local')
    ## TODO this manual fixup is needed due to gh-1548 -- needs proper solution
    #os.remove(opj(origin_sub2.path, '.git'))
    #os.rename(opj(origin_path, '.git', 'modules', '2'), opj(origin_sub2.path, '.git'))

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # subdatasets have no remote yet, so recursive publishing should fail:
    res = publish(dataset=source, to="target", recursive=True, on_failure='ignore')
    assert_result_count(res, 3)
    assert_result_count(
        res, 1, status='ok', type='dataset', path=source.path)
    assert_result_count(
        res, 2, status='error',
        message=("Unknown target sibling '%s' for publication", 'target'))

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = AnnexRepo(sub2_pub, create=True)
    # we will be testing presence of the file content, so let's make it progress
    sub2_target.config.set('receive.denyCurrentBranch', 'updateInstead', where='local')
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, '2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # publish recursively
    with swallow_logs(new_level=logging.DEBUG) as cml:
        res = publish(dataset=source, to="target", recursive=True)
        assert_not_in(
            'forced update', cml.out,
            "we probably haven't merged git-annex before pushing"
        )

    # testing result list
    # base dataset was already published above, notneeded again
    assert_status(('ok', 'notneeded'), res)  # nothing failed
    assert_result_count(
        res, 3, type='dataset')
    eq_({r['path'] for r in res},
        {src_path, sub1.path, sub2.path})

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))
    eq_(list(sub1_target.get_branch_commits("master")),
        list(sub1.get_branch_commits("master")))
    eq_(list(sub1_target.get_branch_commits("git-annex")),
        list(sub1.get_branch_commits("git-annex")))
    eq_(list(sub2_target.get_branch_commits("master")),
        list(sub2.get_branch_commits("master")))
    eq_(list(sub2_target.get_branch_commits("git-annex")),
        list(sub2.get_branch_commits("git-annex")))

    # we are tracking origin but origin has different git-annex, since we
    # cloned from it, so it is not aware of our git-annex
    neq_(list(origin.repo.get_branch_commits("git-annex")),
         list(source.repo.get_branch_commits("git-annex")))
    # So if we first publish to it recursively, we would update
    # all sub-datasets since git-annex branch would need to be pushed
    res_ = publish(dataset=source, recursive=True)
    assert_result_count(res_, 1, status='ok', path=source.path)
    assert_result_count(res_, 1, status='ok', path=sub1.path)
    assert_result_count(res_, 1, status='ok', path=sub2.path)
    # and now should carry the same state for git-annex
    eq_(list(origin.repo.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))

    # test for publishing with  --since.  By default since no changes, nothing pushed
    res_ = publish(dataset=source, recursive=True)
    assert_result_count(
        res_, 3, status='notneeded', type='dataset')

    # still nothing gets pushed, because origin is up to date
    res_ = publish(dataset=source, recursive=True, since='HEAD^')
    assert_result_count(
        res_, 3, status='notneeded', type='dataset')

    # and we should not fail if we run it from within the dataset
    with chpwd(source.path):
        res_ = publish(recursive=True, since='HEAD^')
        assert_result_count(
            res_, 3, status='notneeded', type='dataset')

    # Let's now update one subm
    with open(opj(sub2.path, "file.txt"), 'w') as f:
        f.write('')
    # add to subdataset, does not alter super dataset!
    # MIH: use `to_git` because original test author used
    # and explicit `GitRepo.add` -- keeping this for now
    Dataset(sub2.path).add('file.txt', to_git=True)

    # Let's now update one subm
    create_tree(sub2.path, {'file.dat': 'content'})
    # add to subdataset, without reflecting the change in its super(s)
    Dataset(sub2.path).add('file.dat')

    # note: will publish to origin here since that is what it tracks
    res_ = publish(dataset=source, recursive=True, on_failure='ignore')
    ## only updates published, i.e. just the subdataset, super wasn't altered
    ## nothing copied!
    assert_status(('ok', 'notneeded'), res_)
    assert_result_count(res_, 1, status='ok', path=sub2.path, type='dataset')
    assert_result_count(res_, 0, path=opj(sub2.path, 'file.dat'), type='file')

    # since published to origin -- destination should not get that file
    nok_(lexists(opj(sub2_target.path, 'file.dat')))
    res_ = publish(dataset=source, to='target', recursive=True)
    assert_status(('ok', 'notneeded'), res_)
    assert_result_count(res_, 1, status='ok', path=sub2.path, type='dataset')
    assert_result_count(res_, 0, path=opj(sub2.path, 'file.dat'), type='file')

    # Note: with updateInstead only in target2 and not saving change in
    # super-dataset we would have made remote dataset, if we had entire
    # hierarchy, to be somewhat inconsistent.
    # But here, since target datasets are independent -- it is ok

    # and the file itself was transferred
    ok_(lexists(opj(sub2_target.path, 'file.dat')))
    nok_(sub2_target.file_has_content('file.dat'))

    ## but now we can redo publish recursively, with explicitly requested data transfer
    res_ = publish(
        dataset=source, to='target',
        recursive=True,
        transfer_data='all'
    )
    ok_(sub2_target.file_has_content('file.dat'))
    assert_result_count(
        res_, 1, status='ok', path=opj(sub2.path, 'file.dat'))

    # Let's save those present changes and publish while implying "since last
    # merge point"
    source.save(message="Changes in subm2")
    # and test if it could deduce the remote/branch to push to
    source.config.set('branch.master.remote', 'target', where='local')
    with chpwd(source.path):
        res_ = publish(since='', recursive=True)
    # TODO: somehow test that there were no even attempt to diff within "subm 1"
    # since if `--since=''` worked correctly, nothing has changed there and it
    # should have not been even touched
    assert_status(('ok', 'notneeded'), res_)
    assert_result_count(res_, 1, status='ok', path=source.path, type='dataset')
Exemplo n.º 27
0
def test_publish_recursive(origin, src_path, dst_path, sub1_pub, sub2_pub):

    # prepare src
    source = install(src_path, source=origin, recursive=True)[0]

    # create plain git at target:
    target = GitRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # subdatasets have no remote yet, so recursive publishing should fail:
    with assert_raises(ValueError) as cm:
        publish(dataset=source, to="target", recursive=True)
    assert_in("No sibling 'target' found.", str(cm.exception))

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = AnnexRepo(sub2_pub, create=True)
    sub2_target.checkout("TMP", ["-b"])
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, 'subm 2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # publish recursively
    with swallow_logs(new_level=logging.DEBUG) as cml:
        res = publish(dataset=source, to="target", recursive=True)
        assert_not_in('forced update', cml.out,
                      "we probably haven't merged git-annex before pushing")

    # testing result list
    # (Note: Dataset lacks __eq__ for now. Should this be based on path only?)
    assert_is_instance(res, tuple)
    assert_is_instance(res[0], list)
    assert_is_instance(res[1], list)
    eq_(res[1], [])  # nothing failed/was skipped
    for item in res[0]:
        assert_is_instance(item, Dataset)
    eq_({res[0][0].path, res[0][1].path, res[0][2].path},
        {src_path, sub1.path, sub2.path})

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    eq_(list(target.get_branch_commits("git-annex")),
        list(source.repo.get_branch_commits("git-annex")))
    eq_(list(sub1_target.get_branch_commits("master")),
        list(sub1.get_branch_commits("master")))
    eq_(list(sub1_target.get_branch_commits("git-annex")),
        list(sub1.get_branch_commits("git-annex")))
    eq_(list(sub2_target.get_branch_commits("master")),
        list(sub2.get_branch_commits("master")))
    eq_(list(sub2_target.get_branch_commits("git-annex")),
        list(sub2.get_branch_commits("git-annex")))

    # test for publishing with  --since.  By default since no changes, only current pushed
    res_ = publish(dataset=source, recursive=True)
    # only current one would get pushed
    eq_(set(r.path for r in res_[0]), {src_path})

    # all get pushed
    res_ = publish(dataset=source, recursive=True, since='HEAD^')
    eq_(set(r.path for r in res_[0]), {src_path, sub1.path, sub2.path})

    # Let's now update one subm
    with open(opj(sub2.path, "file.txt"), 'w') as f:
        f.write('')
    sub2.add('file.txt')
    sub2.commit("")
    # TODO: Doesn't work:  https://github.com/datalad/datalad/issues/636
    #source.save("changed sub2", auto_add_changes=True)
    source.repo.commit("", options=['-a'])

    res_ = publish(dataset=source, recursive=True)
    # only updated ones were published
    eq_(set(r.path for r in res_[0]), {src_path, sub2.path})
Exemplo n.º 28
0
def test_publish_with_data(origin, src_path, dst_path, sub1_pub, sub2_pub):

    # prepare src
    source = install(src_path, source=origin, recursive=True)[0]
    source.repo.get('test-annex.dat')

    # create plain git at target:
    target = AnnexRepo(dst_path, create=True)
    target.checkout("TMP", ["-b"])
    source.repo.add_remote("target", dst_path)

    # now, set up targets for the submodules:
    sub1_target = GitRepo(sub1_pub, create=True)
    sub1_target.checkout("TMP", ["-b"])
    sub2_target = GitRepo(sub2_pub, create=True)
    sub2_target.checkout("TMP", ["-b"])
    sub1 = GitRepo(opj(src_path, 'subm 1'), create=False)
    sub2 = GitRepo(opj(src_path, 'subm 2'), create=False)
    sub1.add_remote("target", sub1_pub)
    sub2.add_remote("target", sub2_pub)

    # TMP: Insert the fetch to prevent GitPython to fail after the push,
    # because it cannot resolve the SHA of the old commit of the remote,
    # that git reports back after the push.
    # TODO: Figure out, when to fetch things in general; Alternatively:
    # Is there an option for push, that prevents GitPython from failing?
    source.repo.fetch("target")
    res = publish(dataset=source, to="target", path=['test-annex.dat'])
    eq_(res, ([source, 'test-annex.dat'], []))

    eq_(list(target.get_branch_commits("master")),
        list(source.repo.get_branch_commits("master")))
    # TODO: last commit in git-annex branch differs. Probably fine,
    # but figure out, when exactly to expect this for proper testing:
    eq_(list(target.get_branch_commits("git-annex"))[1:],
        list(source.repo.get_branch_commits("git-annex"))[1:])

    # we need compare target/master:
    target.checkout("master")
    eq_(target.file_has_content(['test-annex.dat']), [True])

    source.repo.fetch("target")
    res = publish(dataset=source, to="target", path=['.'])
    eq_(res, ([source, 'test-annex.dat'], []))

    source.repo.fetch("target")
    import glob
    res = publish(dataset=source, to="target", path=glob.glob1(source.path, '*'))
    # Note: This leads to recursive publishing, since expansion of '*'
    #       contains the submodules themselves in this setup

    # collect result paths:
    result_paths = []
    for item in res[0]:
        if isinstance(item, Dataset):
            result_paths.append(item.path)
        else:
            result_paths.append(item)
    eq_({source.path, opj(source.path, "subm 1"),
         opj(source.path, "subm 2"), 'test-annex.dat'},
        set(result_paths))