tests/frontend/fetch.py - buildstream - Git at Google

 # Pylint doesn't play well with fixtures and dependency injection from pytest
 # pylint: disable=redefined-outer-name

 import os
 import pytest

 from buildstream.testing import cli  # pylint: disable=unused-import
 from buildstream.testing import generate_project
 from buildstream import _yaml
 from buildstream.exceptions import ErrorDomain, LoadErrorReason

 from tests.testutils import generate_junction

 from . import configure_project

 # Project directory
 TOP_DIR = os.path.dirname(os.path.realpath(__file__))
 DATA_DIR = os.path.join(TOP_DIR, "project")


 # Test all possible choices of the `--deps` option.
 #
 # NOTE: Elements used in this test must have sources that are not already
 #       cached. The kind of the sources do not matter so long as they need to
 #       be fetched from somewhere.
 #       Currently we use remote sources for this purpose.
 #
 @pytest.mark.datafiles(os.path.join(TOP_DIR, "source-fetch"))
 @pytest.mark.parametrize(
     "deps, expected_states",
     [
         ("build", ("fetch needed", "buildable", "fetch needed")),
         ("none", ("waiting", "fetch needed", "fetch needed")),
         ("run", ("waiting", "fetch needed", "buildable")),
         ("all", ("waiting", "buildable", "buildable")),
     ],
 )
 def test_fetch_deps(cli, datafiles, deps, expected_states):
     project = str(datafiles)
     generate_project(project)
     generate_project(project, {"aliases": {"project-root": "file:///" + project}})

     target = "bananas.bst"
     build_dep = "apples.bst"
     runtime_dep = "oranges.bst"

     # Assert that none of the sources are cached
     states = cli.get_element_states(project, [target, build_dep, runtime_dep])
     assert all([state == "fetch needed" for state in states.values()])

     # Now fetch the specified sources
     result = cli.run(project=project, args=["source", "fetch", "--deps", deps, target])
     result.assert_success()

     # Finally assert that we have fetched _only_ the desired sources
     states = cli.get_element_states(project, [target, build_dep, runtime_dep])
     states_flattened = (states[target], states[build_dep], states[runtime_dep])
     assert states_flattened == expected_states


 @pytest.mark.datafiles(os.path.join(TOP_DIR, "consistencyerror"))
 def test_fetch_consistency_error(cli, datafiles):
     project = str(datafiles)

     result = cli.run(project=project, args=["source", "fetch", "error.bst"])
     result.assert_main_error(ErrorDomain.STREAM, None)
     result.assert_task_error(ErrorDomain.SOURCE, "the-consistency-error")


 @pytest.mark.datafiles(os.path.join(TOP_DIR, "consistencyerror"))
 def test_fetch_consistency_bug(cli, datafiles):
     project = str(datafiles)

     result = cli.run(project=project, args=["source", "fetch", "bug.bst"])
     result.assert_main_error(ErrorDomain.STREAM, None)
     result.assert_task_error(ErrorDomain.PLUGIN, "source-bug")


 @pytest.mark.datafiles(DATA_DIR)
 @pytest.mark.parametrize("strict", [True, False], ids=["strict", "no-strict"])
 @pytest.mark.parametrize("ref_storage", [("inline"), ("project.refs")])
 def test_unfetched_junction(cli, tmpdir, datafiles, strict, ref_storage):
     project = str(datafiles)
     subproject_path = os.path.join(project, "files", "sub-project")
     junction_path = os.path.join(project, "elements", "junction.bst")
     element_path = os.path.join(project, "elements", "junction-dep.bst")

     configure_project(project, {"ref-storage": ref_storage})
     cli.configure({"projects": {"test": {"strict": strict}}})

     # Create a repo to hold the subproject and generate a junction element for it
     ref = generate_junction(tmpdir, subproject_path, junction_path, store_ref=(ref_storage == "inline"))

     # Create a stack element to depend on a cross junction element
     #
     element = {"kind": "stack", "depends": [{"junction": "junction.bst", "filename": "import-etc.bst"}]}
     _yaml.roundtrip_dump(element, element_path)

     # Dump a project.refs if we're using project.refs storage
     #
     if ref_storage == "project.refs":
         project_refs = {"projects": {"test": {"junction.bst": [{"ref": ref}]}}}
         _yaml.roundtrip_dump(project_refs, os.path.join(project, "junction.refs"))

     # Now try to fetch it, this should automatically result in fetching
     # the junction itself.
     result = cli.run(project=project, args=["source", "fetch", "junction-dep.bst"])
     result.assert_success()


 @pytest.mark.datafiles(DATA_DIR)
 @pytest.mark.parametrize("ref_storage", [("inline"), ("project.refs")])
 def test_inconsistent_junction(cli, tmpdir, datafiles, ref_storage):
     project = str(datafiles)
     subproject_path = os.path.join(project, "files", "sub-project")
     junction_path = os.path.join(project, "elements", "junction.bst")
     element_path = os.path.join(project, "elements", "junction-dep.bst")

     configure_project(project, {"ref-storage": ref_storage})

     # Create a repo to hold the subproject and generate a junction element for it
     generate_junction(tmpdir, subproject_path, junction_path, store_ref=False)

     # Create a stack element to depend on a cross junction element
     #
     element = {"kind": "stack", "depends": [{"junction": "junction.bst", "filename": "import-etc.bst"}]}
     _yaml.roundtrip_dump(element, element_path)

     # Now try to fetch it, this will bail with the appropriate error
     # informing the user to track the junction first
     result = cli.run(project=project, args=["source", "fetch", "junction-dep.bst"])
     result.assert_main_error(ErrorDomain.LOAD, LoadErrorReason.SUBPROJECT_INCONSISTENT)

     # Assert that we have the expected provenance encoded into the error
     element_node = _yaml.load(element_path, shortname="junction-dep.bst")
     ref_node = element_node.get_sequence("depends").mapping_at(0)
     provenance = ref_node.get_provenance()
     assert str(provenance) in result.stderr
	# Pylint doesn't play well with fixtures and dependency injection from pytest
	# pylint: disable=redefined-outer-name

	import os
	import pytest

	from buildstream.testing import cli # pylint: disable=unused-import
	from buildstream.testing import generate_project
	from buildstream import _yaml
	from buildstream.exceptions import ErrorDomain, LoadErrorReason

	from tests.testutils import generate_junction

	from . import configure_project

	# Project directory
	TOP_DIR = os.path.dirname(os.path.realpath(__file__))
	DATA_DIR = os.path.join(TOP_DIR, "project")


	# Test all possible choices of the `--deps` option.
	#
	# NOTE: Elements used in this test must have sources that are not already
	# cached. The kind of the sources do not matter so long as they need to
	# be fetched from somewhere.
	# Currently we use remote sources for this purpose.
	#
	@pytest.mark.datafiles(os.path.join(TOP_DIR, "source-fetch"))
	@pytest.mark.parametrize(
	"deps, expected_states",
	[
	("build", ("fetch needed", "buildable", "fetch needed")),
	("none", ("waiting", "fetch needed", "fetch needed")),
	("run", ("waiting", "fetch needed", "buildable")),
	("all", ("waiting", "buildable", "buildable")),
	],
	)
	def test_fetch_deps(cli, datafiles, deps, expected_states):
	project = str(datafiles)
	generate_project(project)
	generate_project(project, {"aliases": {"project-root": "file:///" + project}})

	target = "bananas.bst"
	build_dep = "apples.bst"
	runtime_dep = "oranges.bst"

	# Assert that none of the sources are cached
	states = cli.get_element_states(project, [target, build_dep, runtime_dep])
	assert all([state == "fetch needed" for state in states.values()])

	# Now fetch the specified sources
	result = cli.run(project=project, args=["source", "fetch", "--deps", deps, target])
	result.assert_success()

	# Finally assert that we have fetched _only_ the desired sources
	states = cli.get_element_states(project, [target, build_dep, runtime_dep])
	states_flattened = (states[target], states[build_dep], states[runtime_dep])
	assert states_flattened == expected_states


	@pytest.mark.datafiles(os.path.join(TOP_DIR, "consistencyerror"))
	def test_fetch_consistency_error(cli, datafiles):
	project = str(datafiles)

	result = cli.run(project=project, args=["source", "fetch", "error.bst"])
	result.assert_main_error(ErrorDomain.STREAM, None)
	result.assert_task_error(ErrorDomain.SOURCE, "the-consistency-error")


	@pytest.mark.datafiles(os.path.join(TOP_DIR, "consistencyerror"))
	def test_fetch_consistency_bug(cli, datafiles):
	project = str(datafiles)

	result = cli.run(project=project, args=["source", "fetch", "bug.bst"])
	result.assert_main_error(ErrorDomain.STREAM, None)
	result.assert_task_error(ErrorDomain.PLUGIN, "source-bug")


	@pytest.mark.datafiles(DATA_DIR)
	@pytest.mark.parametrize("strict", [True, False], ids=["strict", "no-strict"])
	@pytest.mark.parametrize("ref_storage", [("inline"), ("project.refs")])
	def test_unfetched_junction(cli, tmpdir, datafiles, strict, ref_storage):
	project = str(datafiles)
	subproject_path = os.path.join(project, "files", "sub-project")
	junction_path = os.path.join(project, "elements", "junction.bst")
	element_path = os.path.join(project, "elements", "junction-dep.bst")

	configure_project(project, {"ref-storage": ref_storage})
	cli.configure({"projects": {"test": {"strict": strict}}})

	# Create a repo to hold the subproject and generate a junction element for it
	ref = generate_junction(tmpdir, subproject_path, junction_path, store_ref=(ref_storage == "inline"))

	# Create a stack element to depend on a cross junction element
	#
	element = {"kind": "stack", "depends": [{"junction": "junction.bst", "filename": "import-etc.bst"}]}
	_yaml.roundtrip_dump(element, element_path)

	# Dump a project.refs if we're using project.refs storage
	#
	if ref_storage == "project.refs":
	project_refs = {"projects": {"test": {"junction.bst": [{"ref": ref}]}}}
	_yaml.roundtrip_dump(project_refs, os.path.join(project, "junction.refs"))

	# Now try to fetch it, this should automatically result in fetching
	# the junction itself.
	result = cli.run(project=project, args=["source", "fetch", "junction-dep.bst"])
	result.assert_success()


	@pytest.mark.datafiles(DATA_DIR)
	@pytest.mark.parametrize("ref_storage", [("inline"), ("project.refs")])
	def test_inconsistent_junction(cli, tmpdir, datafiles, ref_storage):
	project = str(datafiles)
	subproject_path = os.path.join(project, "files", "sub-project")
	junction_path = os.path.join(project, "elements", "junction.bst")
	element_path = os.path.join(project, "elements", "junction-dep.bst")

	configure_project(project, {"ref-storage": ref_storage})

	# Create a repo to hold the subproject and generate a junction element for it
	generate_junction(tmpdir, subproject_path, junction_path, store_ref=False)

	# Create a stack element to depend on a cross junction element
	#
	element = {"kind": "stack", "depends": [{"junction": "junction.bst", "filename": "import-etc.bst"}]}
	_yaml.roundtrip_dump(element, element_path)

	# Now try to fetch it, this will bail with the appropriate error
	# informing the user to track the junction first
	result = cli.run(project=project, args=["source", "fetch", "junction-dep.bst"])
	result.assert_main_error(ErrorDomain.LOAD, LoadErrorReason.SUBPROJECT_INCONSISTENT)

	# Assert that we have the expected provenance encoded into the error
	element_node = _yaml.load(element_path, shortname="junction-dep.bst")
	ref_node = element_node.get_sequence("depends").mapping_at(0)
	provenance = ref_node.get_provenance()
	assert str(provenance) in result.stderr