# This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. import os import mozunit from mozpack.copier import FileCopier, FileRegistry from mozpack.manifests import InstallManifest, UnreadableInstallManifest from mozpack.test.test_files import TestWithTmpDir class TestInstallManifest(TestWithTmpDir): def test_construct(self): m = InstallManifest() self.assertEqual(len(m), 0) def test_malformed(self): f = self.tmppath("manifest") open(f, "wt").write("junk\n") with self.assertRaises(UnreadableInstallManifest): InstallManifest(f) def test_adds(self): m = InstallManifest() m.add_link("s_source", "s_dest") m.add_copy("c_source", "c_dest") m.add_required_exists("e_dest") m.add_optional_exists("o_dest") m.add_pattern_link("ps_base", "ps/*", "ps_dest") m.add_pattern_copy("pc_base", "pc/**", "pc_dest") m.add_preprocess("p_source", "p_dest", "p_source.pp") m.add_content("content", "content") self.assertEqual(len(m), 8) self.assertIn("s_dest", m) self.assertIn("c_dest", m) self.assertIn("p_dest", m) self.assertIn("e_dest", m) self.assertIn("o_dest", m) self.assertIn("content", m) with self.assertRaises(ValueError): m.add_link("s_other", "s_dest") with self.assertRaises(ValueError): m.add_copy("c_other", "c_dest") with self.assertRaises(ValueError): m.add_preprocess("p_other", "p_dest", "p_other.pp") with self.assertRaises(ValueError): m.add_required_exists("e_dest") with self.assertRaises(ValueError): m.add_optional_exists("o_dest") with self.assertRaises(ValueError): m.add_pattern_link("ps_base", "ps/*", "ps_dest") with self.assertRaises(ValueError): m.add_pattern_copy("pc_base", "pc/**", "pc_dest") with self.assertRaises(ValueError): m.add_content("content", "content") def _get_test_manifest(self): m = InstallManifest() m.add_link(self.tmppath("s_source"), "s_dest") m.add_copy(self.tmppath("c_source"), "c_dest") m.add_preprocess( self.tmppath("p_source"), "p_dest", self.tmppath("p_source.pp"), "#", {"FOO": "BAR", "BAZ": "QUX"}, ) m.add_required_exists("e_dest") m.add_optional_exists("o_dest") m.add_pattern_link("ps_base", "*", "ps_dest") m.add_pattern_copy("pc_base", "**", "pc_dest") m.add_content("the content\non\nmultiple lines", "content") return m def test_serialization(self): m = self._get_test_manifest() p = self.tmppath("m") m.write(path=p) self.assertTrue(os.path.isfile(p)) with open(p, "r") as fh: c = fh.read() self.assertEqual(c.count("\n"), 9) lines = c.splitlines() self.assertEqual(len(lines), 9) self.assertEqual(lines[0], "5") m2 = InstallManifest(path=p) self.assertEqual(m, m2) p2 = self.tmppath("m2") m2.write(path=p2) with open(p2, "r") as fh: c2 = fh.read() self.assertEqual(c, c2) def test_populate_registry(self): m = self._get_test_manifest() r = FileRegistry() m.populate_registry(r) self.assertEqual(len(r), 6) self.assertEqual( r.paths(), ["c_dest", "content", "e_dest", "o_dest", "p_dest", "s_dest"] ) def test_pattern_expansion(self): source = self.tmppath("source") os.mkdir(source) os.mkdir("%s/base" % source) os.mkdir("%s/base/foo" % source) with open("%s/base/foo/file1" % source, "a"): pass with open("%s/base/foo/file2" % source, "a"): pass m = InstallManifest() m.add_pattern_link("%s/base" % source, "**", "dest") c = FileCopier() m.populate_registry(c) self.assertEqual(c.paths(), ["dest/foo/file1", "dest/foo/file2"]) def test_write_expand_pattern(self): source = self.tmppath("source") os.mkdir(source) os.mkdir("%s/base" % source) os.mkdir("%s/base/foo" % source) with open("%s/base/foo/file1" % source, "a"): pass with open("%s/base/foo/file2" % source, "a"): pass m = InstallManifest() m.add_pattern_link("%s/base" % source, "**", "dest") track = self.tmppath("track") m.write(path=track, expand_pattern=True) m = InstallManifest(path=track) self.assertEqual( sorted(dest for dest in m._dests), ["dest/foo/file1", "dest/foo/file2"] ) def test_or(self): m1 = self._get_test_manifest() orig_length = len(m1) m2 = InstallManifest() m2.add_link("s_source2", "s_dest2") m2.add_copy("c_source2", "c_dest2") m1 |= m2 self.assertEqual(len(m2), 2) self.assertEqual(len(m1), orig_length + 2) self.assertIn("s_dest2", m1) self.assertIn("c_dest2", m1) def test_copier_application(self): dest = self.tmppath("dest") os.mkdir(dest) to_delete = self.tmppath("dest/to_delete") with open(to_delete, "a"): pass with open(self.tmppath("s_source"), "wt") as fh: fh.write("symlink!") with open(self.tmppath("c_source"), "wt") as fh: fh.write("copy!") with open(self.tmppath("p_source"), "wt") as fh: fh.write("#define FOO 1\npreprocess!") with open(self.tmppath("dest/e_dest"), "a"): pass with open(self.tmppath("dest/o_dest"), "a"): pass m = self._get_test_manifest() c = FileCopier() m.populate_registry(c) result = c.copy(dest) self.assertTrue(os.path.exists(self.tmppath("dest/s_dest"))) self.assertTrue(os.path.exists(self.tmppath("dest/c_dest"))) self.assertTrue(os.path.exists(self.tmppath("dest/p_dest"))) self.assertTrue(os.path.exists(self.tmppath("dest/e_dest"))) self.assertTrue(os.path.exists(self.tmppath("dest/o_dest"))) self.assertTrue(os.path.exists(self.tmppath("dest/content"))) self.assertFalse(os.path.exists(to_delete)) with open(self.tmppath("dest/s_dest"), "rt") as fh: self.assertEqual(fh.read(), "symlink!") with open(self.tmppath("dest/c_dest"), "rt") as fh: self.assertEqual(fh.read(), "copy!") with open(self.tmppath("dest/p_dest"), "rt") as fh: self.assertEqual(fh.read(), "preprocess!") self.assertEqual( result.updated_files, set( self.tmppath(p) for p in ("dest/s_dest", "dest/c_dest", "dest/p_dest", "dest/content") ), ) self.assertEqual( result.existing_files, set([self.tmppath("dest/e_dest"), self.tmppath("dest/o_dest")]), ) self.assertEqual(result.removed_files, {to_delete}) self.assertEqual(result.removed_directories, set()) def test_preprocessor(self): manifest = self.tmppath("m") deps = self.tmppath("m.pp") dest = self.tmppath("dest") include = self.tmppath("p_incl") with open(include, "wt") as fh: fh.write("#define INCL\n") time = os.path.getmtime(include) - 3 os.utime(include, (time, time)) with open(self.tmppath("p_source"), "wt") as fh: fh.write("#ifdef FOO\n#if BAZ == QUX\nPASS1\n#endif\n#endif\n") fh.write("#ifdef DEPTEST\nPASS2\n#endif\n") fh.write("#include p_incl\n#ifdef INCLTEST\nPASS3\n#endif\n") time = os.path.getmtime(self.tmppath("p_source")) - 3 os.utime(self.tmppath("p_source"), (time, time)) # Create and write a manifest with the preprocessed file, then apply it. # This should write out our preprocessed file. m = InstallManifest() m.add_preprocess( self.tmppath("p_source"), "p_dest", deps, "#", {"FOO": "BAR", "BAZ": "QUX"} ) m.write(path=manifest) m = InstallManifest(path=manifest) c = FileCopier() m.populate_registry(c) c.copy(dest) self.assertTrue(os.path.exists(self.tmppath("dest/p_dest"))) with open(self.tmppath("dest/p_dest"), "rt") as fh: self.assertEqual(fh.read(), "PASS1\n") # Create a second manifest with the preprocessed file, then apply it. # Since this manifest does not exist on the disk, there should not be a # dependency on it, and the preprocessed file should not be modified. m2 = InstallManifest() m2.add_preprocess( self.tmppath("p_source"), "p_dest", deps, "#", {"DEPTEST": True} ) c = FileCopier() m2.populate_registry(c) result = c.copy(dest) self.assertFalse(self.tmppath("dest/p_dest") in result.updated_files) self.assertTrue(self.tmppath("dest/p_dest") in result.existing_files) # Write out the second manifest, then load it back in from the disk. # This should add the dependency on the manifest file, so our # preprocessed file should be regenerated with the new defines. # We also set the mtime on the destination file back, so it will be # older than the manifest file. m2.write(path=manifest) time = os.path.getmtime(manifest) - 1 os.utime(self.tmppath("dest/p_dest"), (time, time)) m2 = InstallManifest(path=manifest) c = FileCopier() m2.populate_registry(c) self.assertTrue(c.copy(dest)) with open(self.tmppath("dest/p_dest"), "rt") as fh: self.assertEqual(fh.read(), "PASS2\n") # Set the time on the manifest back, so it won't be picked up as # modified in the next test time = os.path.getmtime(manifest) - 1 os.utime(manifest, (time, time)) # Update the contents of a file included by the source file. This should # cause the destination to be regenerated. with open(include, "wt") as fh: fh.write("#define INCLTEST\n") time = os.path.getmtime(include) - 1 os.utime(self.tmppath("dest/p_dest"), (time, time)) c = FileCopier() m2.populate_registry(c) self.assertTrue(c.copy(dest)) with open(self.tmppath("dest/p_dest"), "rt") as fh: self.assertEqual(fh.read(), "PASS2\nPASS3\n") def test_preprocessor_dependencies(self): manifest = self.tmppath("m") deps = self.tmppath("m.pp") dest = self.tmppath("dest") source = self.tmppath("p_source") destfile = self.tmppath("dest/p_dest") include = self.tmppath("p_incl") os.mkdir(dest) with open(source, "wt") as fh: fh.write("#define SRC\nSOURCE\n") time = os.path.getmtime(source) - 3 os.utime(source, (time, time)) with open(include, "wt") as fh: fh.write("INCLUDE\n") time = os.path.getmtime(source) - 3 os.utime(include, (time, time)) # Create and write a manifest with the preprocessed file. m = InstallManifest() m.add_preprocess(source, "p_dest", deps, "#", {"FOO": "BAR", "BAZ": "QUX"}) m.write(path=manifest) time = os.path.getmtime(source) - 5 os.utime(manifest, (time, time)) # Now read the manifest back in, and apply it. This should write out # our preprocessed file. m = InstallManifest(path=manifest) c = FileCopier() m.populate_registry(c) self.assertTrue(c.copy(dest)) with open(destfile, "rt") as fh: self.assertEqual(fh.read(), "SOURCE\n") # Next, modify the source to #INCLUDE another file. with open(source, "wt") as fh: fh.write("SOURCE\n#include p_incl\n") time = os.path.getmtime(source) - 1 os.utime(destfile, (time, time)) # Apply the manifest, and confirm that it also reads the newly included # file. m = InstallManifest(path=manifest) c = FileCopier() m.populate_registry(c) c.copy(dest) with open(destfile, "rt") as fh: self.assertEqual(fh.read(), "SOURCE\nINCLUDE\n") # Set the time on the source file back, so it won't be picked up as # modified in the next test. time = os.path.getmtime(source) - 1 os.utime(source, (time, time)) # Now, modify the include file (but not the original source). with open(include, "wt") as fh: fh.write("INCLUDE MODIFIED\n") time = os.path.getmtime(include) - 1 os.utime(destfile, (time, time)) # Apply the manifest, and confirm that the change to the include file # is detected. That should cause the preprocessor to run again. m = InstallManifest(path=manifest) c = FileCopier() m.populate_registry(c) c.copy(dest) with open(destfile, "rt") as fh: self.assertEqual(fh.read(), "SOURCE\nINCLUDE MODIFIED\n") # ORing an InstallManifest should copy file dependencies m = InstallManifest() m |= InstallManifest(path=manifest) c = FileCopier() m.populate_registry(c) e = c._files["p_dest"] self.assertEqual(e.extra_depends, [manifest]) def test_add_entries_from(self): source = self.tmppath("source") os.mkdir(source) os.mkdir("%s/base" % source) os.mkdir("%s/base/foo" % source) with open("%s/base/foo/file1" % source, "a"): pass with open("%s/base/foo/file2" % source, "a"): pass m = InstallManifest() m.add_pattern_link("%s/base" % source, "**", "dest") p = InstallManifest() p.add_entries_from(m) self.assertEqual(len(p), 1) c = FileCopier() p.populate_registry(c) self.assertEqual(c.paths(), ["dest/foo/file1", "dest/foo/file2"]) q = InstallManifest() q.add_entries_from(m, base="target") self.assertEqual(len(q), 1) d = FileCopier() q.populate_registry(d) self.assertEqual(d.paths(), ["target/dest/foo/file1", "target/dest/foo/file2"]) # Some of the values in an InstallManifest include destination # information that is present in the keys. Verify that we can # round-trip serialization. r = InstallManifest() r.add_entries_from(m) r.add_entries_from(m, base="target") self.assertEqual(len(r), 2) temp_path = self.tmppath("temp_path") r.write(path=temp_path) s = InstallManifest(path=temp_path) e = FileCopier() s.populate_registry(e) self.assertEqual( e.paths(), [ "dest/foo/file1", "dest/foo/file2", "target/dest/foo/file1", "target/dest/foo/file2", ], ) if __name__ == "__main__": mozunit.main()