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bazel / bazel / a44ea875254c5a630000f1838764e525cdb864ce / . / tools / python / runfiles / runfiles_test.py
blob: 1212bbaad83340c1325134b5030894ad5722cc94 [file] [log] [blame]
# pylint: disable=g-bad-file-header
# Copyright 2018 The Bazel Authors. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import tempfile
import unittest
from tools.python.runfiles import runfiles
class RunfilesTest(unittest.TestCase):
# """Unit tests for `runfiles.Runfiles`."""
def testRlocationArgumentValidation(self):
r = runfiles.Create({"RUNFILES_DIR": "whatever"})
self.assertRaises(ValueError, lambda: r.Rlocation(None))
self.assertRaises(ValueError, lambda: r.Rlocation(""))
self.assertRaises(TypeError, lambda: r.Rlocation(1))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("../foo"))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("foo/.."))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("foo/../bar"))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("./foo"))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("foo/."))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("foo/./bar"))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("//foobar"))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("foo//"))
self.assertRaisesRegexp(ValueError, "is not normalized",
lambda: r.Rlocation("foo//bar"))
self.assertRaisesRegexp(ValueError, "is absolute without a drive letter",
lambda: r.Rlocation("\\foo"))
def testCreatesManifestBasedRunfiles(self):
with _MockFile(contents=["a/b c/d"]) as mf:
r = runfiles.Create({
"RUNFILES_MANIFEST_FILE": mf.Path(),
"RUNFILES_DIR": "ignored when RUNFILES_MANIFEST_FILE has a value",
"TEST_SRCDIR": "always ignored",
})
self.assertEqual(r.Rlocation("a/b"), "c/d")
self.assertIsNone(r.Rlocation("foo"))
def testManifestBasedRunfilesEnvVars(self):
with _MockFile(name="MANIFEST") as mf:
r = runfiles.Create({
"RUNFILES_MANIFEST_FILE": mf.Path(),
"TEST_SRCDIR": "always ignored",
})
self.assertDictEqual(
r.EnvVars(), {
"RUNFILES_MANIFEST_FILE": mf.Path(),
"RUNFILES_DIR": mf.Path()[:-len("/MANIFEST")],
"JAVA_RUNFILES": mf.Path()[:-len("/MANIFEST")],
})
with _MockFile(name="foo.runfiles_manifest") as mf:
r = runfiles.Create({
"RUNFILES_MANIFEST_FILE": mf.Path(),
"TEST_SRCDIR": "always ignored",
})
self.assertDictEqual(
r.EnvVars(), {
"RUNFILES_MANIFEST_FILE":
mf.Path(),
"RUNFILES_DIR": (
mf.Path()[:-len("foo.runfiles_manifest")] + "foo.runfiles"),
"JAVA_RUNFILES": (
mf.Path()[:-len("foo.runfiles_manifest")] + "foo.runfiles"),
})
with _MockFile(name="x_manifest") as mf:
r = runfiles.Create({
"RUNFILES_MANIFEST_FILE": mf.Path(),
"TEST_SRCDIR": "always ignored",
})
self.assertDictEqual(
r.EnvVars(), {
"RUNFILES_MANIFEST_FILE": mf.Path(),
"RUNFILES_DIR": "",
"JAVA_RUNFILES": "",
})
def testCreatesDirectoryBasedRunfiles(self):
r = runfiles.Create({
"RUNFILES_DIR": "runfiles/dir",
"TEST_SRCDIR": "always ignored",
})
self.assertEqual(r.Rlocation("a/b"), "runfiles/dir/a/b")
self.assertEqual(r.Rlocation("foo"), "runfiles/dir/foo")
def testDirectoryBasedRunfilesEnvVars(self):
r = runfiles.Create({
"RUNFILES_DIR": "runfiles/dir",
"TEST_SRCDIR": "always ignored",
})
self.assertDictEqual(r.EnvVars(), {
"RUNFILES_DIR": "runfiles/dir",
"JAVA_RUNFILES": "runfiles/dir",
})
def testFailsToCreateManifestBasedBecauseManifestDoesNotExist(self):
def _Run():
runfiles.Create({"RUNFILES_MANIFEST_FILE": "non-existing path"})
self.assertRaisesRegexp(IOError, "non-existing path", _Run)
def testFailsToCreateAnyRunfilesBecauseEnvvarsAreNotDefined(self):
with _MockFile(contents=["a b"]) as mf:
runfiles.Create({
"RUNFILES_MANIFEST_FILE": mf.Path(),
"RUNFILES_DIR": "whatever",
"TEST_SRCDIR": "always ignored",
})
runfiles.Create({
"RUNFILES_DIR": "whatever",
"TEST_SRCDIR": "always ignored",
})
self.assertIsNone(runfiles.Create({"TEST_SRCDIR": "always ignored"}))
self.assertIsNone(runfiles.Create({"FOO": "bar"}))
def testManifestBasedRlocation(self):
with _MockFile(contents=[
"Foo/runfile1", "Foo/runfile2 C:/Actual Path\\runfile2",
"Foo/Bar/runfile3 D:\\the path\\run file 3.txt"
]) as mf:
r = runfiles.CreateManifestBased(mf.Path())
self.assertEqual(r.Rlocation("Foo/runfile1"), "Foo/runfile1")
self.assertEqual(r.Rlocation("Foo/runfile2"), "C:/Actual Path\\runfile2")
self.assertEqual(
r.Rlocation("Foo/Bar/runfile3"), "D:\\the path\\run file 3.txt")
self.assertIsNone(r.Rlocation("unknown"))
if RunfilesTest.IsWindows():
self.assertEqual(r.Rlocation("c:/foo"), "c:/foo")
self.assertEqual(r.Rlocation("c:\\foo"), "c:\\foo")
else:
self.assertEqual(r.Rlocation("/foo"), "/foo")
def testDirectoryBasedRlocation(self):
# The _DirectoryBased strategy simply joins the runfiles directory and the
# runfile's path on a "/". This strategy does not perform any normalization,
# nor does it check that the path exists.
r = runfiles.CreateDirectoryBased("foo/bar baz//qux/")
self.assertEqual(r.Rlocation("arg"), "foo/bar baz//qux/arg")
if RunfilesTest.IsWindows():
self.assertEqual(r.Rlocation("c:/foo"), "c:/foo")
self.assertEqual(r.Rlocation("c:\\foo"), "c:\\foo")
else:
self.assertEqual(r.Rlocation("/foo"), "/foo")
def testPathsFromEnvvars(self):
# Both envvars have a valid value.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "mock1/MANIFEST",
lambda path: path == "mock2")
self.assertEqual(mf, "mock1/MANIFEST")
self.assertEqual(dr, "mock2")
# RUNFILES_MANIFEST_FILE is invalid but RUNFILES_DIR is good and there's a
# runfiles manifest in the runfiles directory.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "mock2/MANIFEST",
lambda path: path == "mock2")
self.assertEqual(mf, "mock2/MANIFEST")
self.assertEqual(dr, "mock2")
# RUNFILES_MANIFEST_FILE is invalid but RUNFILES_DIR is good, but there's no
# runfiles manifest in the runfiles directory.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: False,
lambda path: path == "mock2")
self.assertEqual(mf, "")
self.assertEqual(dr, "mock2")
# RUNFILES_DIR is invalid but RUNFILES_MANIFEST_FILE is good, and it is in
# a valid-looking runfiles directory.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "mock1/MANIFEST",
lambda path: path == "mock1")
self.assertEqual(mf, "mock1/MANIFEST")
self.assertEqual(dr, "mock1")
# RUNFILES_DIR is invalid but RUNFILES_MANIFEST_FILE is good, but it is not
# in any valid-looking runfiles directory.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "mock1/MANIFEST",
lambda path: False)
self.assertEqual(mf, "mock1/MANIFEST")
self.assertEqual(dr, "")
# Both envvars are invalid, but there's a manifest in a runfiles directory
# next to argv0, however there's no other content in the runfiles directory.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "argv0.runfiles/MANIFEST",
lambda path: False)
self.assertEqual(mf, "argv0.runfiles/MANIFEST")
self.assertEqual(dr, "")
# Both envvars are invalid, but there's a manifest next to argv0. There's
# no runfiles tree anywhere.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "argv0.runfiles_manifest",
lambda path: False)
self.assertEqual(mf, "argv0.runfiles_manifest")
self.assertEqual(dr, "")
# Both envvars are invalid, but there's a valid manifest next to argv0, and
# a valid runfiles directory (without a manifest in it).
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "argv0.runfiles_manifest",
lambda path: path == "argv0.runfiles")
self.assertEqual(mf, "argv0.runfiles_manifest")
self.assertEqual(dr, "argv0.runfiles")
# Both envvars are invalid, but there's a valid runfiles directory next to
# argv0, though no manifest in it.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: False,
lambda path: path == "argv0.runfiles")
self.assertEqual(mf, "")
self.assertEqual(dr, "argv0.runfiles")
# Both envvars are invalid, but there's a valid runfiles directory next to
# argv0 with a valid manifest in it.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: path == "argv0.runfiles/MANIFEST",
lambda path: path == "argv0.runfiles")
self.assertEqual(mf, "argv0.runfiles/MANIFEST")
self.assertEqual(dr, "argv0.runfiles")
# Both envvars are invalid and there's no runfiles directory or manifest
# next to the argv0.
mf, dr = runfiles._PathsFrom("argv0", "mock1/MANIFEST", "mock2",
lambda path: False, lambda path: False)
self.assertEqual(mf, "")
self.assertEqual(dr, "")
@staticmethod
def IsWindows():
return os.name == "nt"
class _MockFile(object):
def __init__(self, name=None, contents=None):
self._contents = contents or []
self._name = name or "x"
self._path = None
def __enter__(self):
tmpdir = os.environ.get("TEST_TMPDIR")
self._path = os.path.join(tempfile.mkdtemp(dir=tmpdir), self._name)
with open(self._path, "wt") as f:
f.writelines(l + "\n" for l in self._contents)
return self
def __exit__(self, exc_type, exc_value, traceback):
os.remove(self._path)
os.rmdir(os.path.dirname(self._path))
def Path(self):
return self._path
if __name__ == "__main__":
unittest.main()