# # Copyright (C) 2019 EfficiOS Inc. # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; only version 2 # of the License. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. # import unittest import bt2 from utils import get_default_trace_class, TestOutputPortMessageIterator from bt2 import value as bt2_value from bt2 import field_class as bt2_field_class def _create_stream(tc, ctx_field_classes): packet_context_fc = tc.create_structure_field_class() for name, fc in ctx_field_classes: packet_context_fc.append_member(name, fc) trace = tc() stream_class = tc.create_stream_class( packet_context_field_class=packet_context_fc, supports_packets=True ) stream = trace.create_stream(stream_class) return stream def _create_const_field_class(tc, field_class, value_setter_fn): field_name = 'const field' class MyIter(bt2._UserMessageIterator): def __init__(self, config, self_port_output): nonlocal field_class nonlocal value_setter_fn stream = _create_stream(tc, [(field_name, field_class)]) packet = stream.create_packet() value_setter_fn(packet.context_field[field_name]) self._msgs = [ self._create_stream_beginning_message(stream), self._create_packet_beginning_message(packet), ] def __next__(self): if len(self._msgs) == 0: raise StopIteration return self._msgs.pop(0) class MySrc(bt2._UserSourceComponent, message_iterator_class=MyIter): def __init__(self, config, params, obj): self._add_output_port('out', params) graph = bt2.Graph() src_comp = graph.add_component(MySrc, 'my_source', None) msg_iter = TestOutputPortMessageIterator(graph, src_comp.output_ports['out']) # Ignore first message, stream beginning _ = next(msg_iter) packet_beg_msg = next(msg_iter) return packet_beg_msg.packet.context_field[field_name].cls class _TestFieldClass: def test_create_user_attributes(self): fc = self._create_default_field_class(user_attributes={'salut': 23}) self.assertEqual(fc.user_attributes, {'salut': 23}) self.assertIs(type(fc.user_attributes), bt2_value.MapValue) def test_const_create_user_attributes(self): fc = self._create_default_const_field_class(user_attributes={'salut': 23}) self.assertEqual(fc.user_attributes, {'salut': 23}) self.assertIs(type(fc.user_attributes), bt2_value._MapValueConst) def test_create_invalid_user_attributes(self): with self.assertRaises(TypeError): self._create_default_field_class(user_attributes=object()) def test_create_invalid_user_attributes_value_type(self): with self.assertRaises(TypeError): self._create_default_field_class(user_attributes=23) class BoolFieldClassTestCase(_TestFieldClass, unittest.TestCase): @staticmethod def _const_value_setter(field): field.value = False def _create_default_field_class(self, **kwargs): tc = get_default_trace_class() return tc.create_bool_field_class(**kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_bool_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) def setUp(self): self._fc = self._create_default_field_class() self._fc_const = self._create_default_const_field_class() def test_create_default(self): self.assertIsNotNone(self._fc) self.assertEqual(len(self._fc.user_attributes), 0) class BitArrayFieldClassTestCase(_TestFieldClass, unittest.TestCase): @staticmethod def _const_value_setter(field): field.value = [] def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_bit_array_field_class(*args, **kwargs) def _create_default_field_class(self, **kwargs): return self._create_field_class(17, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_bit_array_field_class(17, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) def setUp(self): self._fc = self._create_default_field_class() def test_create_default(self): self.assertIsNotNone(self._fc) self.assertEqual(len(self._fc.user_attributes), 0) def test_create_length_out_of_range(self): with self.assertRaises(ValueError): self._create_field_class(65) def test_create_length_zero(self): with self.assertRaises(ValueError): self._create_field_class(0) def test_create_length_invalid_type(self): with self.assertRaises(TypeError): self._create_field_class('lel') def test_length_prop(self): self.assertEqual(self._fc.length, 17) class _TestIntegerFieldClassProps: def test_create_default(self): fc = self._create_default_field_class() self.assertEqual(fc.field_value_range, 64) self.assertEqual(fc.preferred_display_base, bt2.IntegerDisplayBase.DECIMAL) self.assertEqual(len(fc.user_attributes), 0) def test_create_range(self): fc = self._create_field_class(field_value_range=35) self.assertEqual(fc.field_value_range, 35) fc = self._create_field_class(36) self.assertEqual(fc.field_value_range, 36) def test_create_invalid_range(self): with self.assertRaises(TypeError): self._create_field_class('yes') with self.assertRaises(TypeError): self._create_field_class(field_value_range='yes') with self.assertRaises(ValueError): self._create_field_class(field_value_range=-2) with self.assertRaises(ValueError): self._create_field_class(field_value_range=0) def test_create_base(self): fc = self._create_field_class( preferred_display_base=bt2.IntegerDisplayBase.HEXADECIMAL ) self.assertEqual(fc.preferred_display_base, bt2.IntegerDisplayBase.HEXADECIMAL) def test_create_invalid_base_type(self): with self.assertRaises(TypeError): self._create_field_class(preferred_display_base='yes') def test_create_invalid_base_value(self): with self.assertRaises(ValueError): self._create_field_class(preferred_display_base=444) def test_create_full(self): fc = self._create_field_class( 24, preferred_display_base=bt2.IntegerDisplayBase.OCTAL ) self.assertEqual(fc.field_value_range, 24) self.assertEqual(fc.preferred_display_base, bt2.IntegerDisplayBase.OCTAL) class SignedIntegerFieldClassTestCase( _TestIntegerFieldClassProps, _TestFieldClass, unittest.TestCase ): @staticmethod def _const_value_setter(field): field.value = -18 def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_signed_integer_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_signed_integer_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class class UnsignedIntegerFieldClassTestCase( _TestIntegerFieldClassProps, _TestFieldClass, unittest.TestCase ): @staticmethod def _const_value_setter(field): field.value = 18 def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_unsigned_integer_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_signed_integer_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class class SingleRealFieldClassTestCase(_TestFieldClass, unittest.TestCase): @staticmethod def _const_value_setter(field): field.value = -18.0 def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_single_precision_real_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_single_precision_real_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class def test_create_default(self): fc = self._create_field_class() self.assertEqual(len(fc.user_attributes), 0) class DoubleRealFieldClassTestCase(_TestFieldClass, unittest.TestCase): @staticmethod def _const_value_setter(field): field.value = -18.0 def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_double_precision_real_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_double_precision_real_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class def test_create_default(self): fc = self._create_field_class() self.assertEqual(len(fc.user_attributes), 0) # Converts an _EnumerationFieldClassMapping to a list of ranges: # # [(lower0, upper0), (lower1, upper1), ...] def enum_mapping_to_set(mapping): return {(x.lower, x.upper) for x in mapping.ranges} class _EnumerationFieldClassTestCase(_TestIntegerFieldClassProps): def setUp(self): self._spec_set_up() self._fc = self._create_default_field_class() self._fc_const = self._create_default_const_field_class() def test_create_from_invalid_type(self): with self.assertRaises(TypeError): self._create_field_class('coucou') def test_add_mapping_simple(self): self._fc.add_mapping('hello', self._ranges1) mapping = self._fc['hello'] self.assertEqual(mapping.label, 'hello') self.assertEqual(mapping.ranges, self._ranges1) def test_const_add_mapping(self): with self.assertRaises(AttributeError): self._fc_const.add_mapping('hello', self._ranges1) def test_add_mapping_simple_kwargs(self): self._fc.add_mapping(label='hello', ranges=self._ranges1) mapping = self._fc['hello'] self.assertEqual(mapping.label, 'hello') self.assertEqual(mapping.ranges, self._ranges1) def test_add_mapping_invalid_name(self): with self.assertRaises(TypeError): self._fc.add_mapping(17, self._ranges1) def test_add_mapping_invalid_range(self): with self.assertRaises(TypeError): self._fc.add_mapping('allo', 'meow') def test_add_mapping_dup_label(self): with self.assertRaises(ValueError): self._fc.add_mapping('a', self._ranges1) self._fc.add_mapping('a', self._ranges2) def test_add_mapping_invalid_ranges_signedness(self): with self.assertRaises(TypeError): self._fc.add_mapping('allo', self._inval_ranges) def test_iadd(self): self._fc.add_mapping('c', self._ranges1) self._fc += [('d', self._ranges2), ('e', self._ranges3)] self.assertEqual(len(self._fc), 3) self.assertEqual(self._fc['c'].label, 'c') self.assertEqual(self._fc['c'].ranges, self._ranges1) self.assertEqual(self._fc['d'].label, 'd') self.assertEqual(self._fc['d'].ranges, self._ranges2) self.assertEqual(self._fc['e'].label, 'e') self.assertEqual(self._fc['e'].ranges, self._ranges3) def test_const_iadd(self): with self.assertRaises(TypeError): self._fc_const += [('d', self._ranges2), ('e', self._ranges3)] def test_bool_op(self): self.assertFalse(self._fc) self._fc.add_mapping('a', self._ranges1) self.assertTrue(self._fc) def test_len(self): self._fc.add_mapping('a', self._ranges1) self._fc.add_mapping('b', self._ranges2) self._fc.add_mapping('c', self._ranges3) self.assertEqual(len(self._fc), 3) def test_getitem(self): self._fc.add_mapping('a', self._ranges1) self._fc.add_mapping('b', self._ranges2) self._fc.add_mapping('c', self._ranges3) mapping = self._fc['a'] self.assertEqual(mapping.label, 'a') self.assertEqual(mapping.ranges, self._ranges1) self.assertIs(type(mapping), self._MAPPING_CLASS) self.assertIs(type(mapping.ranges), self._CONST_RANGE_SET_CLASS) def test_getitem_nonexistent(self): with self.assertRaises(KeyError): self._fc['doesnotexist'] def test_iter(self): self._fc.add_mapping('a', self._ranges1) self._fc.add_mapping('b', self._ranges2) self._fc.add_mapping('c', self._ranges3) # This exercises iteration. labels = sorted(self._fc) self.assertEqual(labels, ['a', 'b', 'c']) def test_find_by_value(self): self._fc.add_mapping('a', self._ranges1) self._fc.add_mapping('b', self._ranges2) self._fc.add_mapping('c', self._ranges3) mappings = self._fc.mappings_for_value(self._value_in_range_1_and_3) labels = set([mapping.label for mapping in mappings]) expected_labels = set(['a', 'c']) self.assertEqual(labels, expected_labels) class UnsignedEnumerationFieldClassTestCase( _EnumerationFieldClassTestCase, _TestFieldClass, unittest.TestCase ): _MAPPING_CLASS = bt2_field_class._UnsignedEnumerationFieldClassMappingConst _RANGE_SET_CLASS = bt2.UnsignedIntegerRangeSet _CONST_RANGE_SET_CLASS = bt2._UnsignedIntegerRangeSetConst def _spec_set_up(self): self._ranges1 = bt2.UnsignedIntegerRangeSet([(1, 4), (18, 47)]) self._ranges2 = bt2.UnsignedIntegerRangeSet([(5, 5)]) self._ranges3 = bt2.UnsignedIntegerRangeSet([(8, 22), (48, 99)]) self._inval_ranges = bt2.SignedIntegerRangeSet([(-8, -5), (48, 1928)]) self._value_in_range_1_and_3 = 20 @staticmethod def _const_value_setter(field): field.value = 0 def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_unsigned_enumeration_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_unsigned_enumeration_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class class SignedEnumerationFieldClassTestCase( _EnumerationFieldClassTestCase, _TestFieldClass, unittest.TestCase ): _MAPPING_CLASS = bt2_field_class._SignedEnumerationFieldClassMappingConst _RANGE_SET_CLASS = bt2.SignedIntegerRangeSet _CONST_RANGE_SET_CLASS = bt2._SignedIntegerRangeSetConst def _spec_set_up(self): self._ranges1 = bt2.SignedIntegerRangeSet([(-10, -4), (18, 47)]) self._ranges2 = bt2.SignedIntegerRangeSet([(-3, -3)]) self._ranges3 = bt2.SignedIntegerRangeSet([(-100, -1), (8, 16), (48, 99)]) self._inval_ranges = bt2.UnsignedIntegerRangeSet([(8, 16), (48, 99)]) self._value_in_range_1_and_3 = -7 @staticmethod def _const_value_setter(field): field.value = 0 def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_signed_enumeration_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_signed_enumeration_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class class StringFieldClassTestCase(_TestFieldClass, unittest.TestCase): @staticmethod def _const_value_setter(field): field.value = 'chaine' def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_string_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_string_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class def setUp(self): self._fc = self._create_default_field_class() def test_create_default(self): self.assertIsNotNone(self._fc) self.assertEqual(len(self._fc.user_attributes), 0) class _TestElementContainer: def setUp(self): self._tc = get_default_trace_class() self._fc = self._create_default_field_class() self._fc_const = self._create_default_const_field_class() def test_create_default(self): self.assertIsNotNone(self._fc) self.assertEqual(len(self._fc.user_attributes), 0) def test_append_element(self): int_field_class = self._tc.create_signed_integer_field_class(32) self._append_element_method(self._fc, 'int32', int_field_class) field_class = self._fc['int32'].field_class self.assertEqual(field_class.addr, int_field_class.addr) def test_append_element_kwargs(self): int_field_class = self._tc.create_signed_integer_field_class(32) self._append_element_method(self._fc, name='int32', field_class=int_field_class) field_class = self._fc['int32'].field_class self.assertEqual(field_class.addr, int_field_class.addr) def test_append_element_invalid_name(self): sub_fc = self._tc.create_string_field_class() with self.assertRaises(TypeError): self._append_element_method(self._fc, 23, sub_fc) def test_append_element_invalid_field_class(self): with self.assertRaises(TypeError): self._append_element_method(self._fc, 'yes', object()) def test_append_element_dup_name(self): sub_fc1 = self._tc.create_string_field_class() sub_fc2 = self._tc.create_string_field_class() with self.assertRaises(ValueError): self._append_element_method(self._fc, 'yes', sub_fc1) self._append_element_method(self._fc, 'yes', sub_fc2) def test_attr_field_class(self): int_field_class = self._tc.create_signed_integer_field_class(32) self._append_element_method(self._fc, 'int32', int_field_class) field_class = self._fc['int32'].field_class self.assertIs(type(field_class), bt2_field_class._SignedIntegerFieldClass) def test_const_attr_field_class(self): int_field_class = self._tc.create_signed_integer_field_class(32) self._append_element_method(self._fc, 'int32', int_field_class) field_class = self._fc['int32'].field_class const_fc = _create_const_field_class( self._tc, self._fc, self._const_value_setter ) field_class = const_fc['int32'].field_class self.assertIs(type(field_class), bt2_field_class._SignedIntegerFieldClassConst) def test_iadd(self): a_field_class = self._tc.create_single_precision_real_field_class() b_field_class = self._tc.create_signed_integer_field_class(17) self._append_element_method(self._fc, 'a_float', a_field_class) self._append_element_method(self._fc, 'b_int', b_field_class) c_field_class = self._tc.create_string_field_class() d_field_class = self._tc.create_signed_enumeration_field_class( field_value_range=32 ) e_field_class = self._tc.create_structure_field_class() self._fc += [ ('c_string', c_field_class), ('d_enum', d_field_class), ('e_struct', e_field_class), ] self.assertEqual(self._fc['a_float'].field_class.addr, a_field_class.addr) self.assertEqual(self._fc['a_float'].name, 'a_float') self.assertEqual(self._fc['b_int'].field_class.addr, b_field_class.addr) self.assertEqual(self._fc['b_int'].name, 'b_int') self.assertEqual(self._fc['c_string'].field_class.addr, c_field_class.addr) self.assertEqual(self._fc['c_string'].name, 'c_string') self.assertEqual(self._fc['d_enum'].field_class.addr, d_field_class.addr) self.assertEqual(self._fc['d_enum'].name, 'd_enum') self.assertEqual(self._fc['e_struct'].field_class.addr, e_field_class.addr) self.assertEqual(self._fc['e_struct'].name, 'e_struct') def test_const_iadd(self): a_field_class = self._tc.create_single_precision_real_field_class() with self.assertRaises(TypeError): self._fc_const += a_field_class def test_bool_op(self): self.assertFalse(self._fc) self._append_element_method(self._fc, 'a', self._tc.create_string_field_class()) self.assertTrue(self._fc) def test_len(self): self._append_element_method(self._fc, 'a', self._tc.create_string_field_class()) self._append_element_method(self._fc, 'b', self._tc.create_string_field_class()) self._append_element_method(self._fc, 'c', self._tc.create_string_field_class()) self.assertEqual(len(self._fc), 3) def test_getitem(self): a_fc = self._tc.create_signed_integer_field_class(32) b_fc = self._tc.create_string_field_class() c_fc = self._tc.create_single_precision_real_field_class() self._append_element_method(self._fc, 'a', a_fc) self._append_element_method(self._fc, 'b', b_fc) self._append_element_method(self._fc, 'c', c_fc) self.assertEqual(self._fc['b'].field_class.addr, b_fc.addr) self.assertEqual(self._fc['b'].name, 'b') def test_getitem_invalid_key_type(self): with self.assertRaises(TypeError): self._fc[0] def test_getitem_invalid_key(self): with self.assertRaises(KeyError): self._fc['no way'] def test_contains(self): self.assertFalse('a' in self._fc) self._append_element_method(self._fc, 'a', self._tc.create_string_field_class()) self.assertTrue('a' in self._fc) def test_iter(self): a_fc = self._tc.create_signed_integer_field_class(32) b_fc = self._tc.create_string_field_class() c_fc = self._tc.create_single_precision_real_field_class() elements = (('a', a_fc), ('b', b_fc), ('c', c_fc)) for elem in elements: self._append_element_method(self._fc, *elem) for (name, element), test_elem in zip(self._fc.items(), elements): self.assertEqual(element.name, test_elem[0]) self.assertEqual(name, element.name) self.assertEqual(element.field_class.addr, test_elem[1].addr) self.assertEqual(len(element.user_attributes), 0) def test_at_index(self): a_fc = self._tc.create_signed_integer_field_class(32) b_fc = self._tc.create_string_field_class() c_fc = self._tc.create_single_precision_real_field_class() self._append_element_method(self._fc, 'c', c_fc) self._append_element_method(self._fc, 'a', a_fc) self._append_element_method(self._fc, 'b', b_fc) elem = self._at_index_method(self._fc, 1) self.assertEqual(elem.field_class.addr, a_fc.addr) self.assertEqual(elem.name, 'a') def test_at_index_invalid(self): self._append_element_method( self._fc, 'c', self._tc.create_signed_integer_field_class(32) ) with self.assertRaises(TypeError): self._at_index_method(self._fc, 'yes') def test_at_index_out_of_bounds_after(self): self._append_element_method( self._fc, 'c', self._tc.create_signed_integer_field_class(32) ) with self.assertRaises(IndexError): self._at_index_method(self._fc, len(self._fc)) def test_user_attributes(self): self._append_element_method( self._fc, 'c', self._tc.create_string_field_class(), user_attributes={'salut': 23}, ) self.assertEqual(self._fc['c'].user_attributes, {'salut': 23}) self.assertIs(type(self._fc.user_attributes), bt2_value.MapValue) self.assertIs(type(self._fc['c'].user_attributes), bt2_value.MapValue) def test_invalid_user_attributes(self): with self.assertRaises(TypeError): self._append_element_method( self._fc, 'c', self._tc.create_string_field_class(), user_attributes=object(), ) def test_invalid_user_attributes_value_type(self): with self.assertRaises(TypeError): self._append_element_method( self._fc, 'c', self._tc.create_string_field_class(), user_attributes=23 ) class StructureFieldClassTestCase( _TestFieldClass, _TestElementContainer, unittest.TestCase ): _append_element_method = staticmethod(bt2._StructureFieldClass.append_member) _at_index_method = staticmethod(bt2._StructureFieldClass.member_at_index) @staticmethod def _const_value_setter(field): field.value = {} def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_structure_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_structure_field_class(*args, **kwargs) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class def test_const_member_field_class(self): def _real_value_setter(field): field.value = {'real': 0} tc = get_default_trace_class() fc = tc.create_structure_field_class() member_fc = self._tc.create_single_precision_real_field_class() fc.append_member('real', member_fc) const_fc = _create_const_field_class(tc, fc, _real_value_setter) self.assertIs( type(const_fc['real'].field_class), bt2_field_class._SinglePrecisionRealFieldClassConst, ) def test_member_field_class(self): tc = get_default_trace_class() fc = tc.create_structure_field_class() member_fc = self._tc.create_single_precision_real_field_class() fc.append_member('real', member_fc) self.assertIs( type(fc['real'].field_class), bt2_field_class._SinglePrecisionRealFieldClass ) class OptionWithoutSelectorFieldClassTestCase(_TestFieldClass, unittest.TestCase): @staticmethod def _const_value_setter(field): field.has_field = True field.value = 12 def _create_default_field_class(self, *args, **kwargs): return self._tc.create_option_without_selector_field_class( self._content_fc, *args, **kwargs ) def _create_default_const_field_class(self, *args, **kwargs): fc = self._tc.create_option_without_selector_field_class( self._content_fc, *args, **kwargs ) return _create_const_field_class(self._tc, fc, self._const_value_setter) def setUp(self): self._tc = get_default_trace_class() self._content_fc = self._tc.create_signed_integer_field_class(23) def test_create_default(self): fc = self._create_default_field_class() self.assertEqual(fc.field_class.addr, self._content_fc.addr) self.assertEqual(len(fc.user_attributes), 0) def test_create_invalid_field_class(self): with self.assertRaises(TypeError): self._tc.create_option_without_selector_field_class(object()) def test_attr_field_class(self): fc = self._create_default_field_class() self.assertIs(type(fc.field_class), bt2_field_class._SignedIntegerFieldClass) def test_const_attr_field_class(self): fc = self._create_default_const_field_class() self.assertIs( type(fc.field_class), bt2_field_class._SignedIntegerFieldClassConst ) class _OptionWithSelectorFieldClassTestCase(_TestFieldClass): @staticmethod def _const_value_setter(field): field['opt'].has_field = True field['opt'].value = 12 def _create_default_const_field_class(self, *args, **kwargs): # Create a struct to contain the option and its selector else we can't # create the non-const field necessary to get the the const field_class struct_fc = self._tc.create_structure_field_class() struct_fc.append_member('selecteux', self._tag_fc) opt_fc = self._create_default_field_class(*args, **kwargs) struct_fc.append_member('opt', opt_fc) return _create_const_field_class(self._tc, struct_fc, self._const_value_setter)[ 'opt' ].field_class def setUp(self): self._tc = get_default_trace_class() self._content_fc = self._tc.create_signed_integer_field_class(23) self._tag_fc = self._create_tag_fc() def _create_field_class_for_field_path_test(self): fc = self._create_default_field_class() foo_fc = self._tc.create_single_precision_real_field_class() bar_fc = self._tc.create_string_field_class() baz_fc = self._tc.create_string_field_class() inner_struct_fc = self._tc.create_structure_field_class() inner_struct_fc.append_member('bar', bar_fc) inner_struct_fc.append_member('baz', baz_fc) inner_struct_fc.append_member('tag', self._tag_fc) inner_struct_fc.append_member('opt', fc) opt_struct_array_fc = self._tc.create_option_without_selector_field_class( inner_struct_fc ) outer_struct_fc = self._tc.create_structure_field_class() outer_struct_fc.append_member('foo', foo_fc) outer_struct_fc.append_member('inner_opt', opt_struct_array_fc) # The path to the selector field class is resolved when the # option field class is actually used, for example in a packet # context. self._tc.create_stream_class( packet_context_field_class=outer_struct_fc, supports_packets=True ) return fc def test_field_path_len(self): fc = self._create_field_class_for_field_path_test() self.assertEqual(len(fc.selector_field_path), 3) def test_field_path_iter(self): fc = self._create_field_class_for_field_path_test() path_items = list(fc.selector_field_path) self.assertEqual(len(path_items), 3) self.assertIsInstance(path_items[0], bt2._IndexFieldPathItem) self.assertEqual(path_items[0].index, 1) self.assertIsInstance(path_items[1], bt2._CurrentOptionContentFieldPathItem) self.assertIsInstance(path_items[2], bt2._IndexFieldPathItem) self.assertEqual(path_items[2].index, 2) def test_field_path_root_scope(self): fc = self._create_field_class_for_field_path_test() self.assertEqual( fc.selector_field_path.root_scope, bt2.FieldPathScope.PACKET_CONTEXT ) class OptionWithBoolSelectorFieldClassTestCase( _OptionWithSelectorFieldClassTestCase, unittest.TestCase ): def _create_default_field_class(self, *args, **kwargs): return self._tc.create_option_with_bool_selector_field_class( self._content_fc, self._tag_fc, *args, **kwargs ) def _create_tag_fc(self): return self._tc.create_bool_field_class() def test_create_default(self): fc = self._create_default_field_class() self.assertEqual(fc.field_class.addr, self._content_fc.addr) self.assertFalse(fc.selector_is_reversed) self.assertEqual(len(fc.user_attributes), 0) def test_create_selector_is_reversed_wrong_type(self): with self.assertRaises(TypeError): self._create_default_field_class(selector_is_reversed=23) def test_create_invalid_selector_type(self): with self.assertRaises(TypeError): self._tc.create_option_with_bool_selector_field_class(self._content_fc, 17) def test_attr_selector_is_reversed(self): fc = self._create_default_field_class(selector_is_reversed=True) self.assertTrue(fc.selector_is_reversed) def test_const_attr_selector_is_reversed(self): fc = self._create_default_const_field_class(selector_is_reversed=True) self.assertTrue(fc.selector_is_reversed) class _OptionWithIntegerSelectorFieldClassTestCase( _OptionWithSelectorFieldClassTestCase ): def _create_default_field_class(self, *args, **kwargs): return self._tc.create_option_with_integer_selector_field_class( self._content_fc, self._tag_fc, self._ranges, *args, **kwargs ) def test_create_default(self): fc = self._create_default_field_class() self.assertEqual(fc.field_class.addr, self._content_fc.addr) self.assertEqual(fc.ranges, self._ranges) self.assertEqual(len(fc.user_attributes), 0) def test_create_ranges_wrong_type(self): with self.assertRaises(TypeError): self._tc.create_option_with_integer_selector_field_class( self._content_fc, self._tag_fc, 23 ) def test_create_ranges_empty(self): with self.assertRaises(ValueError): self._tc.create_option_with_integer_selector_field_class( self._content_fc, self._tag_fc, type(self._ranges)() ) def test_create_invalid_selector_type(self): with self.assertRaises(TypeError): self._tc.create_option_with_bool_selector_field_class(self._content_fc, 17) def test_attr_ranges(self): fc = self._create_default_field_class() print(type(fc.ranges), type(self._ranges)) self.assertEqual(fc.ranges, self._ranges) def test_const_attr_ranges(self): fc = self._create_default_const_field_class() self.assertEqual(fc.ranges, self._ranges) class OptionWithUnsignedIntegerSelectorFieldClassTestCase( _OptionWithIntegerSelectorFieldClassTestCase, unittest.TestCase ): def setUp(self): self._ranges = bt2.UnsignedIntegerRangeSet([(1, 3), (18, 44)]) super().setUp() def _create_tag_fc(self): return self._tc.create_unsigned_integer_field_class() class VariantFieldClassWithoutSelectorTestCase( _TestFieldClass, _TestElementContainer, unittest.TestCase ): _append_element_method = staticmethod( bt2._VariantFieldClassWithoutSelector.append_option ) _at_index_method = staticmethod( bt2._VariantFieldClassWithoutSelector.option_at_index ) @staticmethod def _const_value_setter(variant_field): variant_field.selected_option_index = 0 variant_field.value = 12 def _create_field_class(self, *args, **kwargs): tc = get_default_trace_class() return tc.create_variant_field_class(*args, **kwargs) def _create_default_const_field_class(self, *args, **kwargs): tc = get_default_trace_class() fc = tc.create_variant_field_class(*args, **kwargs) int_field_class = self._tc.create_signed_integer_field_class(32) fc.append_option('int32', int_field_class) return _create_const_field_class(tc, fc, self._const_value_setter) _create_default_field_class = _create_field_class class _VariantFieldClassWithIntegerSelectorTestCase: @staticmethod def _const_value_setter(field): field['variant'].selected_option_index = 0 field['variant'] = 12 def _create_default_field_class(self, *args, **kwargs): return self._tc.create_variant_field_class( *args, selector_fc=self._selector_fc, **kwargs ) def _create_default_const_field_class(self, *args, **kwargs): # Create a struct to contain the variant and its selector else we can't # create the non-const field necessary to get the the const field_class struct_fc = self._tc.create_structure_field_class() struct_fc.append_member('selecteux', self._selector_fc) variant_fc = self._tc.create_variant_field_class( *args, selector_fc=self._selector_fc ) variant_fc.append_option( 'a', self._tc.create_signed_integer_field_class(32), self._ranges1 ) struct_fc.append_member('variant', variant_fc, **kwargs) return _create_const_field_class(self._tc, struct_fc, self._const_value_setter)[ 'variant' ].field_class def setUp(self): self._tc = get_default_trace_class() self._spec_set_up() self._fc = self._create_default_field_class() def test_create_default(self): self.assertIsNotNone(self._fc) self.assertEqual(len(self._fc.user_attributes), 0) def test_append_element(self): str_field_class = self._tc.create_string_field_class() self._fc.append_option('str', str_field_class, self._ranges1) opt = self._fc['str'] self.assertEqual(opt.field_class.addr, str_field_class.addr) self.assertEqual(opt.name, 'str') self.assertEqual(opt.ranges.addr, self._ranges1.addr) def test_const_append(self): fc_const = self._create_default_const_field_class() str_field_class = self._tc.create_string_field_class() with self.assertRaises(AttributeError): fc_const.append_option('str', str_field_class, self._ranges1) def test_append_element_kwargs(self): int_field_class = self._tc.create_signed_integer_field_class(32) self._fc.append_option( name='int32', field_class=int_field_class, ranges=self._ranges1 ) opt = self._fc['int32'] self.assertEqual(opt.field_class.addr, int_field_class.addr) self.assertEqual(opt.name, 'int32') self.assertEqual(opt.ranges.addr, self._ranges1.addr) def test_append_element_invalid_name(self): sub_fc = self._tc.create_string_field_class() with self.assertRaises(TypeError): self._fc.append_option(self._fc, 23, sub_fc) def test_append_element_invalid_field_class(self): with self.assertRaises(TypeError): self._fc.append_option(self._fc, 'yes', object()) def test_append_element_invalid_ranges(self): sub_fc = self._tc.create_string_field_class() with self.assertRaises(TypeError): self._fc.append_option(self._fc, sub_fc, 'lel') def test_append_element_dup_name(self): sub_fc1 = self._tc.create_string_field_class() sub_fc2 = self._tc.create_string_field_class() with self.assertRaises(ValueError): self._fc.append_option('yes', sub_fc1, self._ranges1) self._fc.append_option('yes', sub_fc2, self._ranges2) def test_append_element_invalid_ranges_signedness(self): sub_fc = self._tc.create_string_field_class() with self.assertRaises(TypeError): self._fc.append_option(self._fc, sub_fc, self._inval_ranges) def test_user_attributes(self): self._fc.append_option( 'c', self._tc.create_string_field_class(), self._ranges1, user_attributes={'salut': 23}, ) self.assertEqual(self._fc['c'].user_attributes, {'salut': 23}) self.assertIs(type(self._fc.user_attributes), bt2_value.MapValue) def test_const_user_attributes(self): fc_const = self._create_default_const_field_class() self.assertIs(type(fc_const.user_attributes), bt2_value._MapValueConst) def test_invalid_user_attributes(self): with self.assertRaises(TypeError): self._fc.append_option( 'c', self._tc.create_string_field_class(), self._ranges1, user_attributes=object(), ) def test_invalid_user_attributes_value_type(self): with self.assertRaises(TypeError): self._fc.append_option( 'c', self._tc.create_string_field_class(), self._ranges1, user_attributes=23, ) def test_iadd(self): a_field_class = self._tc.create_single_precision_real_field_class() self._fc.append_option('a_float', a_field_class, self._ranges1) c_field_class = self._tc.create_string_field_class() d_field_class = self._tc.create_signed_enumeration_field_class( field_value_range=32 ) self._fc += [ ('c_string', c_field_class, self._ranges2), ('d_enum', d_field_class, self._ranges3), ] self.assertEqual(self._fc['a_float'].field_class.addr, a_field_class.addr) self.assertEqual(self._fc['a_float'].name, 'a_float') self.assertEqual(self._fc['a_float'].ranges, self._ranges1) self.assertEqual(self._fc['c_string'].field_class.addr, c_field_class.addr) self.assertEqual(self._fc['c_string'].name, 'c_string') self.assertEqual(self._fc['c_string'].ranges, self._ranges2) self.assertEqual(self._fc['d_enum'].field_class.addr, d_field_class.addr) self.assertEqual(self._fc['d_enum'].name, 'd_enum') self.assertEqual(self._fc['d_enum'].ranges, self._ranges3) def test_const_iadd(self): fc_const = self._create_default_const_field_class() a_field_class = self._tc.create_single_precision_real_field_class() with self.assertRaises(TypeError): fc_const += [('a_float', a_field_class, self._ranges1)] def test_bool_op(self): self.assertFalse(self._fc) self._fc.append_option('a', self._tc.create_string_field_class(), self._ranges1) self.assertTrue(self._fc) def test_len(self): self._fc.append_option('a', self._tc.create_string_field_class(), self._ranges1) self._fc.append_option('b', self._tc.create_string_field_class(), self._ranges2) self._fc.append_option('c', self._tc.create_string_field_class(), self._ranges3) self.assertEqual(len(self._fc), 3) def test_getitem(self): a_fc = self._tc.create_signed_integer_field_class(32) b_fc = self._tc.create_string_field_class() c_fc = self._tc.create_single_precision_real_field_class() self._fc.append_option('a', a_fc, self._ranges1) self._fc.append_option('b', b_fc, self._ranges2) self._fc.append_option('c', c_fc, self._ranges3) self.assertEqual(self._fc['b'].field_class.addr, b_fc.addr) self.assertEqual(self._fc['b'].name, 'b') self.assertEqual(self._fc['b'].ranges.addr, self._ranges2.addr) def test_option_field_class(self): a_fc = self._tc.create_signed_integer_field_class(32) self._fc.append_option('a', a_fc, self._ranges1) self.assertIs( type(self._fc['a'].field_class), bt2_field_class._SignedIntegerFieldClass ) def test_const_option_field_class(self): fc_const = self._create_default_const_field_class() self.assertIs( type(fc_const['a'].field_class), bt2_field_class._SignedIntegerFieldClassConst, ) def test_getitem_invalid_key_type(self): with self.assertRaises(TypeError): self._fc[0] def test_getitem_invalid_key(self): with self.assertRaises(KeyError): self._fc['no way'] def test_contains(self): self.assertFalse('a' in self._fc) self._fc.append_option('a', self._tc.create_string_field_class(), self._ranges1) self.assertTrue('a' in self._fc) def test_iter(self): a_fc = self._tc.create_signed_integer_field_class(32) b_fc = self._tc.create_string_field_class() c_fc = self._tc.create_single_precision_real_field_class() opts = ( ('a', a_fc, self._ranges1), ('b', b_fc, self._ranges2), ('c', c_fc, self._ranges3), ) for opt in opts: self._fc.append_option(*opt) for (name, opt), test_opt in zip(self._fc.items(), opts): self.assertEqual(opt.name, test_opt[0]) self.assertEqual(name, opt.name) self.assertEqual(opt.field_class.addr, test_opt[1].addr) self.assertEqual(opt.ranges.addr, test_opt[2].addr) def test_at_index(self): a_fc = self._tc.create_signed_integer_field_class(32) b_fc = self._tc.create_string_field_class() c_fc = self._tc.create_single_precision_real_field_class() self._fc.append_option('c', c_fc, self._ranges1) self._fc.append_option('a', a_fc, self._ranges2) self._fc.append_option('b', b_fc, self._ranges3) self.assertEqual(self._fc.option_at_index(1).field_class.addr, a_fc.addr) self.assertEqual(self._fc.option_at_index(1).name, 'a') self.assertEqual(self._fc.option_at_index(1).ranges.addr, self._ranges2.addr) def test_at_index_invalid(self): self._fc.append_option( 'c', self._tc.create_signed_integer_field_class(32), self._ranges3 ) with self.assertRaises(TypeError): self._fc.option_at_index('yes') def test_at_index_out_of_bounds_after(self): self._fc.append_option( 'c', self._tc.create_signed_integer_field_class(32), self._ranges3 ) with self.assertRaises(IndexError): self._fc.option_at_index(len(self._fc)) def _fill_default_fc_for_field_path_test(self): # Create something equivalent to: # # struct outer_struct_fc { # real foo; # struct inner_struct_fc { # [u]int64_t selector; # string bar; # string baz; # variant { # real a; // selected with self._ranges1 # int21_t b; // selected with self._ranges2 # uint34_t c; // selected with self._ranges3 # } variant; # } inner_struct[2]; # }; self._fc.append_option( 'a', self._tc.create_single_precision_real_field_class(), self._ranges1 ) self._fc.append_option( 'b', self._tc.create_signed_integer_field_class(21), self._ranges2 ) self._fc.append_option( 'c', self._tc.create_unsigned_integer_field_class(34), self._ranges3 ) foo_fc = self._tc.create_single_precision_real_field_class() bar_fc = self._tc.create_string_field_class() baz_fc = self._tc.create_string_field_class() inner_struct_fc = self._tc.create_structure_field_class() inner_struct_fc.append_member('selector', self._selector_fc) inner_struct_fc.append_member('bar', bar_fc) inner_struct_fc.append_member('baz', baz_fc) inner_struct_fc.append_member('variant', self._fc) inner_struct_array_fc = self._tc.create_static_array_field_class( inner_struct_fc, 2 ) outer_struct_fc = self._tc.create_structure_field_class() outer_struct_fc.append_member('foo', foo_fc) outer_struct_fc.append_member('inner_struct', inner_struct_array_fc) # The path to the selector field is resolved when the sequence is # actually used, for example in a packet context. self._tc.create_stream_class( supports_packets=True, packet_context_field_class=outer_struct_fc ) def test_selector_field_path_length(self): self._fill_default_fc_for_field_path_test() self.assertEqual(len(self._fc.selector_field_path), 3) def test_selector_field_path_iter(self): self._fill_default_fc_for_field_path_test() path_items = list(self._fc.selector_field_path) self.assertEqual(len(path_items), 3) self.assertIsInstance(path_items[0], bt2._IndexFieldPathItem) self.assertEqual(path_items[0].index, 1) self.assertIsInstance(path_items[1], bt2._CurrentArrayElementFieldPathItem) self.assertIsInstance(path_items[2], bt2._IndexFieldPathItem) self.assertEqual(path_items[2].index, 0) def test_selector_field_path_root_scope(self): self._fill_default_fc_for_field_path_test() self.assertEqual( self._fc.selector_field_path.root_scope, bt2.FieldPathScope.PACKET_CONTEXT ) class VariantFieldClassWithUnsignedSelectorTestCase( _VariantFieldClassWithIntegerSelectorTestCase, unittest.TestCase ): def _spec_set_up(self): self._ranges1 = bt2.UnsignedIntegerRangeSet([(1, 4), (18, 47)]) self._ranges2 = bt2.UnsignedIntegerRangeSet([(5, 5)]) self._ranges3 = bt2.UnsignedIntegerRangeSet([(8, 16), (48, 99)]) self._inval_ranges = bt2.SignedIntegerRangeSet([(-8, 16), (48, 99)]) self._selector_fc = self._tc.create_unsigned_integer_field_class() class VariantFieldClassWithSignedSelectorTestCase( _VariantFieldClassWithIntegerSelectorTestCase, unittest.TestCase ): def _spec_set_up(self): self._ranges1 = bt2.SignedIntegerRangeSet([(-10, -4), (18, 47)]) self._ranges2 = bt2.SignedIntegerRangeSet([(-3, -3)]) self._ranges3 = bt2.SignedIntegerRangeSet([(8, 16), (48, 99)]) self._inval_ranges = bt2.UnsignedIntegerRangeSet([(8, 16), (48, 99)]) self._selector_fc = self._tc.create_signed_integer_field_class() class _ArrayFieldClassTestCase: def test_attr_element_field_class(self): fc = self._create_array() self.assertIs( type(fc.element_field_class), bt2_field_class._SignedIntegerFieldClass ) class _ArrayFieldClassConstTestCase: def test_const_attr_element_field_class(self): fc = self._create_const_array() self.assertIs( type(fc.element_field_class), bt2_field_class._SignedIntegerFieldClassConst ) class StaticArrayFieldClassTestCase( _ArrayFieldClassTestCase, _ArrayFieldClassConstTestCase, unittest.TestCase ): @staticmethod def _const_value_setter(field): field.value = [9] * 45 def _create_array(self): return self._tc.create_static_array_field_class(self._elem_fc, 45) def _create_const_array(self): fc = self._tc.create_static_array_field_class(self._elem_fc, 45) return _create_const_field_class(self._tc, fc, self._const_value_setter) def setUp(self): self._tc = get_default_trace_class() self._elem_fc = self._tc.create_signed_integer_field_class(23) def test_create_default(self): fc = self._tc.create_static_array_field_class(self._elem_fc, 45) self.assertEqual(fc.element_field_class.addr, self._elem_fc.addr) self.assertEqual(fc.length, 45) self.assertEqual(len(fc.user_attributes), 0) def test_create_invalid_elem_field_class(self): with self.assertRaises(TypeError): self._tc.create_static_array_field_class(object(), 45) def test_create_invalid_length(self): with self.assertRaises(ValueError): self._tc.create_static_array_field_class( self._tc.create_string_field_class(), -17 ) def test_create_invalid_length_type(self): with self.assertRaises(TypeError): self._tc.create_static_array_field_class( self._tc.create_string_field_class(), 'the length' ) class DynamicArrayFieldClassTestCase( _ArrayFieldClassTestCase, _ArrayFieldClassConstTestCase, unittest.TestCase ): @staticmethod def _const_value_setter(field): field.value = [] def _create_array(self): return self._tc.create_dynamic_array_field_class(self._elem_fc) def _create_const_array(self): fc = self._tc.create_dynamic_array_field_class(self._elem_fc) return _create_const_field_class(self._tc, fc, self._const_value_setter) def setUp(self): self._tc = get_default_trace_class() self._elem_fc = self._tc.create_signed_integer_field_class(23) def test_create_default(self): fc = self._tc.create_dynamic_array_field_class(self._elem_fc) self.assertEqual(fc.element_field_class.addr, self._elem_fc.addr) self.assertEqual(len(fc.user_attributes), 0) def test_create_invalid_field_class(self): with self.assertRaises(TypeError): self._tc.create_dynamic_array_field_class(object()) class DynamicArrayWithLengthFieldFieldClassTestCase( _ArrayFieldClassTestCase, unittest.TestCase ): @staticmethod def _const_value_setter(field): field.value = [] def _create_array(self): return self._tc.create_dynamic_array_field_class(self._elem_fc, self._len_fc) def setUp(self): self._tc = get_default_trace_class() self._elem_fc = self._tc.create_signed_integer_field_class(23) self._len_fc = self._tc.create_unsigned_integer_field_class(12) def test_create_default(self): fc = self._create_array() self.assertEqual(fc.element_field_class.addr, self._elem_fc.addr) self.assertIsNone(fc.length_field_path, None) self.assertEqual(len(fc.user_attributes), 0) def _create_field_class_for_field_path_test(self): # Create something a field class that is equivalent to: # # struct outer_struct_fc { # real foo; # struct inner_struct_fc { # string bar; # string baz; # uint12_t len; # uint23_t dyn_array[len]; # } inner_struct[2]; # }; fc = self._create_array() foo_fc = self._tc.create_single_precision_real_field_class() bar_fc = self._tc.create_string_field_class() baz_fc = self._tc.create_string_field_class() inner_struct_fc = self._tc.create_structure_field_class() inner_struct_fc.append_member('bar', bar_fc) inner_struct_fc.append_member('baz', baz_fc) inner_struct_fc.append_member('len', self._len_fc) inner_struct_fc.append_member('dyn_array', fc) inner_struct_array_fc = self._tc.create_static_array_field_class( inner_struct_fc, 2 ) outer_struct_fc = self._tc.create_structure_field_class() outer_struct_fc.append_member('foo', foo_fc) outer_struct_fc.append_member('inner_struct', inner_struct_array_fc) # The path to the length field is resolved when the sequence is # actually used, for example in a packet context. self._tc.create_stream_class( packet_context_field_class=outer_struct_fc, supports_packets=True ) return fc def test_field_path_len(self): fc = self._create_field_class_for_field_path_test() self.assertEqual(len(fc.length_field_path), 3) def test_field_path_iter(self): fc = self._create_field_class_for_field_path_test() path_items = list(fc.length_field_path) self.assertEqual(len(path_items), 3) self.assertIsInstance(path_items[0], bt2._IndexFieldPathItem) self.assertEqual(path_items[0].index, 1) self.assertIsInstance(path_items[1], bt2._CurrentArrayElementFieldPathItem) self.assertIsInstance(path_items[2], bt2._IndexFieldPathItem) self.assertEqual(path_items[2].index, 2) def test_field_path_root_scope(self): fc = self._create_field_class_for_field_path_test() self.assertEqual( fc.length_field_path.root_scope, bt2.FieldPathScope.PACKET_CONTEXT ) def test_create_invalid_length_type(self): with self.assertRaises(TypeError): self._tc.create_dynamic_array_field_class( self._tc.create_string_field_class(), 17 ) if __name__ == "__main__": unittest.main()