# # BitBake Tests for the Data Store (data.py/data_smart.py) # # Copyright (C) 2010 Chris Larson # Copyright (C) 2012 Richard Purdie # # SPDX-License-Identifier: GPL-2.0-only # import unittest import bb import bb.data import bb.parse import logging class LogRecord(): def __enter__(self): logs = [] class LogHandler(logging.Handler): def emit(self, record): logs.append(record) logger = logging.getLogger("BitBake") handler = LogHandler() self.handler = handler logger.addHandler(handler) return logs def __exit__(self, type, value, traceback): logger = logging.getLogger("BitBake") logger.removeHandler(self.handler) return def logContains(item, logs): for l in logs: m = l.getMessage() if item in m: return True return False class DataExpansions(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d["foo"] = "value_of_foo" self.d["bar"] = "value_of_bar" self.d["value_of_foo"] = "value_of_'value_of_foo'" def test_one_var(self): val = self.d.expand("${foo}") self.assertEqual(str(val), "value_of_foo") def test_indirect_one_var(self): val = self.d.expand("${${foo}}") self.assertEqual(str(val), "value_of_'value_of_foo'") def test_indirect_and_another(self): val = self.d.expand("${${foo}} ${bar}") self.assertEqual(str(val), "value_of_'value_of_foo' value_of_bar") def test_python_snippet(self): val = self.d.expand("${@5*12}") self.assertEqual(str(val), "60") def test_expand_in_python_snippet(self): val = self.d.expand("${@'boo ' + '${foo}'}") self.assertEqual(str(val), "boo value_of_foo") def test_python_snippet_getvar(self): val = self.d.expand("${@d.getVar('foo') + ' ${bar}'}") self.assertEqual(str(val), "value_of_foo value_of_bar") def test_python_unexpanded(self): self.d.setVar("bar", "${unsetvar}") val = self.d.expand("${@d.getVar('foo') + ' ${bar}'}") self.assertEqual(str(val), "${@d.getVar('foo') + ' ${unsetvar}'}") def test_python_snippet_syntax_error(self): self.d.setVar("FOO", "${@foo = 5}") self.assertRaises(bb.data_smart.ExpansionError, self.d.getVar, "FOO", True) def test_python_snippet_runtime_error(self): self.d.setVar("FOO", "${@int('test')}") self.assertRaises(bb.data_smart.ExpansionError, self.d.getVar, "FOO", True) def test_python_snippet_error_path(self): self.d.setVar("FOO", "foo value ${BAR}") self.d.setVar("BAR", "bar value ${@int('test')}") self.assertRaises(bb.data_smart.ExpansionError, self.d.getVar, "FOO", True) def test_value_containing_value(self): val = self.d.expand("${@d.getVar('foo') + ' ${bar}'}") self.assertEqual(str(val), "value_of_foo value_of_bar") def test_reference_undefined_var(self): val = self.d.expand("${undefinedvar} meh") self.assertEqual(str(val), "${undefinedvar} meh") def test_double_reference(self): self.d.setVar("BAR", "bar value") self.d.setVar("FOO", "${BAR} foo ${BAR}") val = self.d.getVar("FOO") self.assertEqual(str(val), "bar value foo bar value") def test_direct_recursion(self): self.d.setVar("FOO", "${FOO}") self.assertRaises(bb.data_smart.ExpansionError, self.d.getVar, "FOO", True) def test_indirect_recursion(self): self.d.setVar("FOO", "${BAR}") self.d.setVar("BAR", "${BAZ}") self.d.setVar("BAZ", "${FOO}") self.assertRaises(bb.data_smart.ExpansionError, self.d.getVar, "FOO", True) def test_recursion_exception(self): self.d.setVar("FOO", "${BAR}") self.d.setVar("BAR", "${${@'FOO'}}") self.assertRaises(bb.data_smart.ExpansionError, self.d.getVar, "FOO", True) def test_incomplete_varexp_single_quotes(self): self.d.setVar("FOO", "sed -i -e 's:IP{:I${:g' $pc") val = self.d.getVar("FOO") self.assertEqual(str(val), "sed -i -e 's:IP{:I${:g' $pc") def test_nonstring(self): self.d.setVar("TEST", 5) val = self.d.getVar("TEST") self.assertEqual(str(val), "5") def test_rename(self): self.d.renameVar("foo", "newfoo") self.assertEqual(self.d.getVar("newfoo", False), "value_of_foo") self.assertEqual(self.d.getVar("foo", False), None) def test_deletion(self): self.d.delVar("foo") self.assertEqual(self.d.getVar("foo", False), None) def test_keys(self): keys = list(self.d.keys()) self.assertCountEqual(keys, ['value_of_foo', 'foo', 'bar']) def test_keys_deletion(self): newd = bb.data.createCopy(self.d) newd.delVar("bar") keys = list(newd.keys()) self.assertCountEqual(keys, ['value_of_foo', 'foo']) class TestNestedExpansions(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d["foo"] = "foo" self.d["bar"] = "bar" self.d["value_of_foobar"] = "187" def test_refs(self): val = self.d.expand("${value_of_${foo}${bar}}") self.assertEqual(str(val), "187") #def test_python_refs(self): # val = self.d.expand("${@${@3}**2 + ${@4}**2}") # self.assertEqual(str(val), "25") def test_ref_in_python_ref(self): val = self.d.expand("${@'${foo}' + 'bar'}") self.assertEqual(str(val), "foobar") def test_python_ref_in_ref(self): val = self.d.expand("${${@'f'+'o'+'o'}}") self.assertEqual(str(val), "foo") def test_deep_nesting(self): depth = 100 val = self.d.expand("${" * depth + "foo" + "}" * depth) self.assertEqual(str(val), "foo") #def test_deep_python_nesting(self): # depth = 50 # val = self.d.expand("${@" * depth + "1" + "+1}" * depth) # self.assertEqual(str(val), str(depth + 1)) def test_mixed(self): val = self.d.expand("${value_of_${@('${foo}'+'bar')[0:3]}${${@'BAR'.lower()}}}") self.assertEqual(str(val), "187") def test_runtime(self): val = self.d.expand("${${@'value_of' + '_f'+'o'+'o'+'b'+'a'+'r'}}") self.assertEqual(str(val), "187") class TestMemoize(unittest.TestCase): def test_memoized(self): d = bb.data.init() d.setVar("FOO", "bar") self.assertTrue(d.getVar("FOO", False) is d.getVar("FOO", False)) def test_not_memoized(self): d1 = bb.data.init() d2 = bb.data.init() d1.setVar("FOO", "bar") d2.setVar("FOO", "bar2") self.assertTrue(d1.getVar("FOO", False) is not d2.getVar("FOO", False)) def test_changed_after_memoized(self): d = bb.data.init() d.setVar("foo", "value of foo") self.assertEqual(str(d.getVar("foo", False)), "value of foo") d.setVar("foo", "second value of foo") self.assertEqual(str(d.getVar("foo", False)), "second value of foo") def test_same_value(self): d = bb.data.init() d.setVar("foo", "value of") d.setVar("bar", "value of") self.assertEqual(d.getVar("foo", False), d.getVar("bar", False)) class TestConcat(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d.setVar("FOO", "foo") self.d.setVar("VAL", "val") self.d.setVar("BAR", "bar") def test_prepend(self): self.d.setVar("TEST", "${VAL}") self.d.prependVar("TEST", "${FOO}:") self.assertEqual(self.d.getVar("TEST"), "foo:val") def test_append(self): self.d.setVar("TEST", "${VAL}") self.d.appendVar("TEST", ":${BAR}") self.assertEqual(self.d.getVar("TEST"), "val:bar") def test_multiple_append(self): self.d.setVar("TEST", "${VAL}") self.d.prependVar("TEST", "${FOO}:") self.d.appendVar("TEST", ":val2") self.d.appendVar("TEST", ":${BAR}") self.assertEqual(self.d.getVar("TEST"), "foo:val:val2:bar") class TestConcatOverride(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d.setVar("FOO", "foo") self.d.setVar("VAL", "val") self.d.setVar("BAR", "bar") def test_prepend(self): self.d.setVar("TEST", "${VAL}") self.d.setVar("TEST_prepend", "${FOO}:") self.assertEqual(self.d.getVar("TEST"), "foo:val") def test_append(self): self.d.setVar("TEST", "${VAL}") self.d.setVar("TEST_append", ":${BAR}") self.assertEqual(self.d.getVar("TEST"), "val:bar") def test_multiple_append(self): self.d.setVar("TEST", "${VAL}") self.d.setVar("TEST_prepend", "${FOO}:") self.d.setVar("TEST_append", ":val2") self.d.setVar("TEST_append", ":${BAR}") self.assertEqual(self.d.getVar("TEST"), "foo:val:val2:bar") def test_append_unset(self): self.d.setVar("TEST_prepend", "${FOO}:") self.d.setVar("TEST_append", ":val2") self.d.setVar("TEST_append", ":${BAR}") self.assertEqual(self.d.getVar("TEST"), "foo::val2:bar") def test_remove(self): self.d.setVar("TEST", "${VAL} ${BAR}") self.d.setVar("TEST_remove", "val") self.assertEqual(self.d.getVar("TEST"), " bar") def test_remove_cleared(self): self.d.setVar("TEST", "${VAL} ${BAR}") self.d.setVar("TEST_remove", "val") self.d.setVar("TEST", "${VAL} ${BAR}") self.assertEqual(self.d.getVar("TEST"), "val bar") # Ensure the value is unchanged if we have an inactive remove override # (including that whitespace is preserved) def test_remove_inactive_override(self): self.d.setVar("TEST", "${VAL} ${BAR} 123") self.d.setVar("TEST_remove_inactiveoverride", "val") self.assertEqual(self.d.getVar("TEST"), "val bar 123") def test_doubleref_remove(self): self.d.setVar("TEST", "${VAL} ${BAR}") self.d.setVar("TEST_remove", "val") self.d.setVar("TEST_TEST", "${TEST} ${TEST}") self.assertEqual(self.d.getVar("TEST_TEST"), " bar bar") def test_empty_remove(self): self.d.setVar("TEST", "") self.d.setVar("TEST_remove", "val") self.assertEqual(self.d.getVar("TEST"), "") def test_remove_expansion(self): self.d.setVar("BAR", "Z") self.d.setVar("TEST", "${BAR}/X Y") self.d.setVar("TEST_remove", "${BAR}/X") self.assertEqual(self.d.getVar("TEST"), " Y") def test_remove_expansion_items(self): self.d.setVar("TEST", "A B C D") self.d.setVar("BAR", "B D") self.d.setVar("TEST_remove", "${BAR}") self.assertEqual(self.d.getVar("TEST"), "A C ") def test_remove_preserve_whitespace(self): # When the removal isn't active, the original value should be preserved self.d.setVar("TEST", " A B") self.d.setVar("TEST_remove", "C") self.assertEqual(self.d.getVar("TEST"), " A B") def test_remove_preserve_whitespace2(self): # When the removal is active preserve the whitespace self.d.setVar("TEST", " A B") self.d.setVar("TEST_remove", "B") self.assertEqual(self.d.getVar("TEST"), " A ") class TestOverrides(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d.setVar("OVERRIDES", "foo:bar:local") self.d.setVar("TEST", "testvalue") def test_no_override(self): self.assertEqual(self.d.getVar("TEST"), "testvalue") def test_one_override(self): self.d.setVar("TEST_bar", "testvalue2") self.assertEqual(self.d.getVar("TEST"), "testvalue2") def test_one_override_unset(self): self.d.setVar("TEST2_bar", "testvalue2") self.assertEqual(self.d.getVar("TEST2"), "testvalue2") self.assertCountEqual(list(self.d.keys()), ['TEST', 'TEST2', 'OVERRIDES', 'TEST2_bar']) def test_multiple_override(self): self.d.setVar("TEST_bar", "testvalue2") self.d.setVar("TEST_local", "testvalue3") self.d.setVar("TEST_foo", "testvalue4") self.assertEqual(self.d.getVar("TEST"), "testvalue3") self.assertCountEqual(list(self.d.keys()), ['TEST', 'TEST_foo', 'OVERRIDES', 'TEST_bar', 'TEST_local']) def test_multiple_combined_overrides(self): self.d.setVar("TEST_local_foo_bar", "testvalue3") self.assertEqual(self.d.getVar("TEST"), "testvalue3") def test_multiple_overrides_unset(self): self.d.setVar("TEST2_local_foo_bar", "testvalue3") self.assertEqual(self.d.getVar("TEST2"), "testvalue3") def test_keyexpansion_override(self): self.d.setVar("LOCAL", "local") self.d.setVar("TEST_bar", "testvalue2") self.d.setVar("TEST_${LOCAL}", "testvalue3") self.d.setVar("TEST_foo", "testvalue4") bb.data.expandKeys(self.d) self.assertEqual(self.d.getVar("TEST"), "testvalue3") def test_rename_override(self): self.d.setVar("ALTERNATIVE_ncurses-tools_class-target", "a") self.d.setVar("OVERRIDES", "class-target") self.d.renameVar("ALTERNATIVE_ncurses-tools", "ALTERNATIVE_lib32-ncurses-tools") self.assertEqual(self.d.getVar("ALTERNATIVE_lib32-ncurses-tools"), "a") def test_underscore_override(self): self.d.setVar("TEST_bar", "testvalue2") self.d.setVar("TEST_some_val", "testvalue3") self.d.setVar("TEST_foo", "testvalue4") self.d.setVar("OVERRIDES", "foo:bar:some_val") self.assertEqual(self.d.getVar("TEST"), "testvalue3") def test_remove_with_override(self): self.d.setVar("TEST_bar", "testvalue2") self.d.setVar("TEST_some_val", "testvalue3 testvalue5") self.d.setVar("TEST_some_val_remove", "testvalue3") self.d.setVar("TEST_foo", "testvalue4") self.d.setVar("OVERRIDES", "foo:bar:some_val") self.assertEqual(self.d.getVar("TEST"), " testvalue5") def test_append_and_override_1(self): self.d.setVar("TEST_append", "testvalue2") self.d.setVar("TEST_bar", "testvalue3") self.assertEqual(self.d.getVar("TEST"), "testvalue3testvalue2") def test_append_and_override_2(self): self.d.setVar("TEST_append_bar", "testvalue2") self.assertEqual(self.d.getVar("TEST"), "testvaluetestvalue2") def test_append_and_override_3(self): self.d.setVar("TEST_bar_append", "testvalue2") self.assertEqual(self.d.getVar("TEST"), "testvalue2") # Test an override with _ in it based on a real world OE issue def test_underscore_override(self): self.d.setVar("TARGET_ARCH", "x86_64") self.d.setVar("PN", "test-${TARGET_ARCH}") self.d.setVar("VERSION", "1") self.d.setVar("VERSION_pn-test-${TARGET_ARCH}", "2") self.d.setVar("OVERRIDES", "pn-${PN}") bb.data.expandKeys(self.d) self.assertEqual(self.d.getVar("VERSION"), "2") class TestKeyExpansion(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d.setVar("FOO", "foo") self.d.setVar("BAR", "foo") def test_keyexpand(self): self.d.setVar("VAL_${FOO}", "A") self.d.setVar("VAL_${BAR}", "B") with LogRecord() as logs: bb.data.expandKeys(self.d) self.assertTrue(logContains("Variable key VAL_${FOO} (A) replaces original key VAL_foo (B)", logs)) self.assertEqual(self.d.getVar("VAL_foo"), "A") class TestFlags(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d.setVar("foo", "value of foo") self.d.setVarFlag("foo", "flag1", "value of flag1") self.d.setVarFlag("foo", "flag2", "value of flag2") def test_setflag(self): self.assertEqual(self.d.getVarFlag("foo", "flag1", False), "value of flag1") self.assertEqual(self.d.getVarFlag("foo", "flag2", False), "value of flag2") def test_delflag(self): self.d.delVarFlag("foo", "flag2") self.assertEqual(self.d.getVarFlag("foo", "flag1", False), "value of flag1") self.assertEqual(self.d.getVarFlag("foo", "flag2", False), None) class Contains(unittest.TestCase): def setUp(self): self.d = bb.data.init() self.d.setVar("SOMEFLAG", "a b c") def test_contains(self): self.assertTrue(bb.utils.contains("SOMEFLAG", "a", True, False, self.d)) self.assertTrue(bb.utils.contains("SOMEFLAG", "b", True, False, self.d)) self.assertTrue(bb.utils.contains("SOMEFLAG", "c", True, False, self.d)) self.assertTrue(bb.utils.contains("SOMEFLAG", "a b", True, False, self.d)) self.assertTrue(bb.utils.contains("SOMEFLAG", "b c", True, False, self.d)) self.assertTrue(bb.utils.contains("SOMEFLAG", "c a", True, False, self.d)) self.assertTrue(bb.utils.contains("SOMEFLAG", "a b c", True, False, self.d)) self.assertTrue(bb.utils.contains("SOMEFLAG", "c b a", True, False, self.d)) self.assertFalse(bb.utils.contains("SOMEFLAG", "x", True, False, self.d)) self.assertFalse(bb.utils.contains("SOMEFLAG", "a x", True, False, self.d)) self.assertFalse(bb.utils.contains("SOMEFLAG", "x c b", True, False, self.d)) self.assertFalse(bb.utils.contains("SOMEFLAG", "x c b a", True, False, self.d)) def test_contains_any(self): self.assertTrue(bb.utils.contains_any("SOMEFLAG", "a", True, False, self.d)) self.assertTrue(bb.utils.contains_any("SOMEFLAG", "b", True, False, self.d)) self.assertTrue(bb.utils.contains_any("SOMEFLAG", "c", True, False, self.d)) self.assertTrue(bb.utils.contains_any("SOMEFLAG", "a b", True, False, self.d)) self.assertTrue(bb.utils.contains_any("SOMEFLAG", "b c", True, False, self.d)) self.assertTrue(bb.utils.contains_any("SOMEFLAG", "c a", True, False, self.d)) self.assertTrue(bb.utils.contains_any("SOMEFLAG", "a x", True, False, self.d)) self.assertTrue(bb.utils.contains_any("SOMEFLAG", "x c", True, False, self.d)) self.assertFalse(bb.utils.contains_any("SOMEFLAG", "x", True, False, self.d)) self.assertFalse(bb.utils.contains_any("SOMEFLAG", "x y z", True, False, self.d)) class TaskHash(unittest.TestCase): def test_taskhashes(self): def gettask_bashhash(taskname, d): tasklist, gendeps, lookupcache = bb.data.generate_dependencies(d, set()) taskdeps, basehash = bb.data.generate_dependency_hash(tasklist, gendeps, lookupcache, set(), "somefile") bb.warn(str(lookupcache)) return basehash["somefile:" + taskname] d = bb.data.init() d.setVar("__BBTASKS", ["mytask"]) d.setVar("__exportlist", []) d.setVar("mytask", "${MYCOMMAND}") d.setVar("MYCOMMAND", "${VAR}; foo; bar; exit 0") d.setVar("VAR", "val") orighash = gettask_bashhash("mytask", d) # Changing a variable should change the hash d.setVar("VAR", "val2") nexthash = gettask_bashhash("mytask", d) self.assertNotEqual(orighash, nexthash) d.setVar("VAR", "val") # Adding an inactive removal shouldn't change the hash d.setVar("BAR", "notbar") d.setVar("MYCOMMAND_remove", "${BAR}") nexthash = gettask_bashhash("mytask", d) self.assertEqual(orighash, nexthash) # Adding an active removal should change the hash d.setVar("BAR", "bar;") nexthash = gettask_bashhash("mytask", d) self.assertNotEqual(orighash, nexthash) # Setup an inactive contains() d.setVar("VAR", "${@bb.utils.contains('VAR2', 'A', 'val', '', d)}") orighash = gettask_bashhash("mytask", d) # Activate the contains() and the hash should change d.setVar("VAR2", "A") nexthash = gettask_bashhash("mytask", d) self.assertNotEqual(orighash, nexthash) # The contains should be inactive but even though VAR2 has a # different value the hash should match the original d.setVar("VAR2", "B") nexthash = gettask_bashhash("mytask", d) self.assertEqual(orighash, nexthash) class Serialize(unittest.TestCase): def test_serialize(self): import tempfile import pickle d = bb.data.init() d.enableTracking() d.setVar('HELLO', 'world') d.setVarFlag('HELLO', 'other', 'planet') with tempfile.NamedTemporaryFile(delete=False) as tmpfile: tmpfilename = tmpfile.name pickle.dump(d, tmpfile) with open(tmpfilename, 'rb') as f: newd = pickle.load(f) os.remove(tmpfilename) self.assertEqual(d, newd) self.assertEqual(newd.getVar('HELLO'), 'world') self.assertEqual(newd.getVarFlag('HELLO', 'other'), 'planet')