#!/usr/bin/env python3 # SPDX-License-Identifier: GPL-2.0+ """ Tests for the Fdt module Copyright (c) 2018 Google, Inc Written by Simon Glass """ from argparse import ArgumentParser import os import shutil import sys import tempfile import unittest # Bring in the patman libraries our_path = os.path.dirname(os.path.realpath(__file__)) sys.path.insert(1, os.path.join(our_path, '..')) # Bring in the libfdt module sys.path.insert(2, 'scripts/dtc/pylibfdt') sys.path.insert(2, os.path.join(our_path, '../../scripts/dtc/pylibfdt')) sys.path.insert(2, os.path.join(our_path, '../../build-sandbox_spl/scripts/dtc/pylibfdt')) #pylint: disable=wrong-import-position from dtoc import fdt from dtoc import fdt_util from dtoc.fdt_util import fdt32_to_cpu, fdt64_to_cpu from dtoc.fdt import Type, BytesToValue import libfdt from u_boot_pylib import test_util from u_boot_pylib import tools from u_boot_pylib import tout #pylint: disable=protected-access def _get_property_value(dtb, node, prop_name): """Low-level function to get the property value based on its offset This looks directly in the device tree at the property's offset to find its value. It is useful as a check that the property is in the correct place. Args: node: Node to look in prop_name: Property name to find Returns: Tuple: Prop object found Value of property as a string (found using property offset) """ prop = node.props[prop_name] # Add 12, which is sizeof(struct fdt_property), to get to start of data offset = prop.GetOffset() + 12 data = dtb.GetContents()[offset:offset + len(prop.value)] return prop, [chr(x) for x in data] def find_dtb_file(dts_fname): """Locate a test file in the test/ directory Args: dts_fname (str): Filename to find, e.g. 'dtoc_test_simple.dts] Returns: str: Path to the test filename """ return os.path.join('tools/dtoc/test', dts_fname) class TestFdt(unittest.TestCase): """Tests for the Fdt module This includes unit tests for some functions and functional tests for the fdt module. """ @classmethod def setUpClass(cls): tools.prepare_output_dir(None) @classmethod def tearDownClass(cls): tools.finalise_output_dir() def setUp(self): self.dtb = fdt.FdtScan(find_dtb_file('dtoc_test_simple.dts')) def test_fdt(self): """Test that we can open an Fdt""" self.dtb.Scan() root = self.dtb.GetRoot() self.assertTrue(isinstance(root, fdt.Node)) def test_get_node(self): """Test the GetNode() method""" node = self.dtb.GetNode('/spl-test') self.assertTrue(isinstance(node, fdt.Node)) node = self.dtb.GetNode('/i2c@0/pmic@9') self.assertTrue(isinstance(node, fdt.Node)) self.assertEqual('pmic@9', node.name) self.assertIsNone(self.dtb.GetNode('/i2c@0/pmic@9/missing')) node = self.dtb.GetNode('/') self.assertTrue(isinstance(node, fdt.Node)) self.assertEqual(0, node.Offset()) def test_flush(self): """Check that we can flush the device tree out to its file""" fname = self.dtb._fname with open(fname, 'rb') as inf: inf.read() os.remove(fname) with self.assertRaises(IOError): with open(fname, 'rb'): pass self.dtb.Flush() with open(fname, 'rb') as inf: inf.read() def test_pack(self): """Test that packing a device tree works""" self.dtb.Pack() def test_get_fdt_raw(self): """Tetst that we can access the raw device-tree data""" self.assertTrue(isinstance(self.dtb.GetContents(), bytes)) def test_get_props(self): """Tests obtaining a list of properties""" node = self.dtb.GetNode('/spl-test') props = self.dtb.GetProps(node) self.assertEqual(['boolval', 'bootph-all', 'bytearray', 'byteval', 'compatible', 'int64val', 'intarray', 'intval', 'longbytearray', 'maybe-empty-int', 'notstring', 'stringarray', 'stringval', ], sorted(props.keys())) def test_check_error(self): """Tests the ChecKError() function""" with self.assertRaises(ValueError) as exc: fdt.CheckErr(-libfdt.NOTFOUND, 'hello') self.assertIn('FDT_ERR_NOTFOUND: hello', str(exc.exception)) def test_get_fdt(self): """Test getting an Fdt object from a node""" node = self.dtb.GetNode('/spl-test') self.assertEqual(self.dtb, node.GetFdt()) def test_bytes_to_value(self): """Test converting a string list into Python""" self.assertEqual(BytesToValue(b'this\0is\0'), (Type.STRING, ['this', 'is'])) class TestNode(unittest.TestCase): """Test operation of the Node class""" @classmethod def setUpClass(cls): tools.prepare_output_dir(None) @classmethod def tearDownClass(cls): tools.finalise_output_dir() def setUp(self): self.dtb = fdt.FdtScan(find_dtb_file('dtoc_test_simple.dts')) self.node = self.dtb.GetNode('/spl-test') self.fdt = self.dtb.GetFdtObj() def test_offset(self): """Tests that we can obtain the offset of a node""" self.assertTrue(self.node.Offset() > 0) def test_delete(self): """Tests that we can delete a property""" node2 = self.dtb.GetNode('/spl-test2') offset1 = node2.Offset() self.node.DeleteProp('intval') offset2 = node2.Offset() self.assertTrue(offset2 < offset1) self.node.DeleteProp('intarray') offset3 = node2.Offset() self.assertTrue(offset3 < offset2) with self.assertRaises(libfdt.FdtException): self.node.DeleteProp('missing') def test_delete_get_offset(self): """Test that property offset update when properties are deleted""" self.node.DeleteProp('intval') prop, value = _get_property_value(self.dtb, self.node, 'longbytearray') self.assertEqual(prop.value, value) def test_find_node(self): """Tests that we can find a node using the FindNode() functoin""" node = self.dtb.GetRoot().FindNode('i2c@0') self.assertEqual('i2c@0', node.name) subnode = node.FindNode('pmic@9') self.assertEqual('pmic@9', subnode.name) self.assertEqual(None, node.FindNode('missing')) def test_refresh_missing_node(self): """Test refreshing offsets when an extra node is present in dtb""" # Delete it from our tables, not the device tree del self.dtb._root.subnodes[-1] with self.assertRaises(ValueError) as exc: self.dtb.Refresh() self.assertIn('Internal error, offset', str(exc.exception)) def test_refresh_extra_node(self): """Test refreshing offsets when an expected node is missing""" # Delete it from the device tre, not our tables self.fdt.del_node(self.node.Offset()) with self.assertRaises(ValueError) as exc: self.dtb.Refresh() self.assertIn('Internal error, node name mismatch ' 'spl-test != spl-test2', str(exc.exception)) def test_refresh_missing_prop(self): """Test refreshing offsets when an extra property is present in dtb""" # Delete it from our tables, not the device tree del self.node.props['notstring'] with self.assertRaises(ValueError) as exc: self.dtb.Refresh() self.assertIn("Internal error, node '/spl-test' property 'notstring' missing, offset ", str(exc.exception)) def test_lookup_phandle(self): """Test looking up a single phandle""" dtb = fdt.FdtScan(find_dtb_file('dtoc_test_phandle.dts')) node = dtb.GetNode('/phandle-source2') prop = node.props['clocks'] target = dtb.GetNode('/phandle-target') self.assertEqual(target, dtb.LookupPhandle(fdt32_to_cpu(prop.value))) def test_add_node_space(self): """Test adding a single node when out of space""" self.fdt.pack() self.node.AddSubnode('subnode') with self.assertRaises(libfdt.FdtException) as exc: self.dtb.Sync(auto_resize=False) self.assertIn('FDT_ERR_NOSPACE', str(exc.exception)) self.dtb.Sync(auto_resize=True) offset = self.fdt.path_offset('/spl-test/subnode') self.assertTrue(offset > 0) def test_add_nodes(self): """Test adding various subnode and properies""" node = self.dtb.GetNode('/i2c@0') # Add one more node next to the pmic one sn1 = node.AddSubnode('node-one') sn1.AddInt('integer-a', 12) sn1.AddInt('integer-b', 23) # Sync so that everything is clean self.dtb.Sync(auto_resize=True) # Add two subnodes next to pmic and node-one sn2 = node.AddSubnode('node-two') sn2.AddInt('integer-2a', 34) sn2.AddInt('integer-2b', 45) sn3 = node.AddSubnode('node-three') sn3.AddInt('integer-3', 123) # Add a property to the node after i2c@0 to check that this is not # disturbed by adding a subnode to i2c@0 orig_node = self.dtb.GetNode('/orig-node') orig_node.AddInt('integer-4', 456) # Add a property to the pmic node to check that pmic properties are not # disturbed pmic = self.dtb.GetNode('/i2c@0/pmic@9') pmic.AddInt('integer-5', 567) self.dtb.Sync(auto_resize=True) def test_add_one_node(self): """Testing deleting and adding a subnode before syncing""" subnode = self.node.AddSubnode('subnode') self.node.AddSubnode('subnode2') self.dtb.Sync(auto_resize=True) # Delete a node and add a new one subnode.Delete() self.node.AddSubnode('subnode3') self.dtb.Sync() def test_refresh_name_mismatch(self): """Test name mismatch when syncing nodes and properties""" self.node.AddInt('integer-a', 12) wrong_offset = self.dtb.GetNode('/i2c@0')._offset self.node._offset = wrong_offset with self.assertRaises(ValueError) as exc: self.dtb.Sync() self.assertIn("Internal error, node '/spl-test' name mismatch 'i2c@0'", str(exc.exception)) with self.assertRaises(ValueError) as exc: self.node.Refresh(wrong_offset) self.assertIn("Internal error, node '/spl-test' name mismatch 'i2c@0'", str(exc.exception)) def test_copy_node(self): """Test copy_node() function""" def do_copy_checks(dtb, dst, second1_ph_val, expect_none): self.assertEqual( ['/dest/base', '/dest/first@0', '/dest/existing'], [n.path for n in dst.subnodes]) chk = dtb.GetNode('/dest/base') self.assertTrue(chk) self.assertEqual( {'compatible', 'bootph-all', '#address-cells', '#size-cells'}, chk.props.keys()) # Check the first property prop = chk.props['bootph-all'] self.assertEqual('bootph-all', prop.name) self.assertEqual(True, prop.value) self.assertEqual(chk.path, prop._node.path) # Check the second property prop2 = chk.props['compatible'] self.assertEqual('compatible', prop2.name) self.assertEqual('sandbox,i2c', prop2.value) self.assertEqual(chk.path, prop2._node.path) base = chk.FindNode('base') self.assertTrue(chk) first = dtb.GetNode('/dest/base/first@0') self.assertTrue(first) over = dtb.GetNode('/dest/base/over') self.assertTrue(over) # Make sure that the phandle for 'over' is not copied self.assertNotIn('phandle', over.props.keys()) second = dtb.GetNode('/dest/base/second') self.assertTrue(second) self.assertEqual([over.name, first.name, second.name], [n.name for n in chk.subnodes]) self.assertEqual(chk, over.parent) self.assertEqual( {'bootph-all', 'compatible', 'reg', 'low-power'}, over.props.keys()) if expect_none: self.assertIsNone(prop._offset) self.assertIsNone(prop2._offset) self.assertIsNone(over._offset) else: self.assertTrue(prop._offset) self.assertTrue(prop2._offset) self.assertTrue(over._offset) # Now check ordering of the subnodes self.assertEqual( ['second1', 'second2', 'second3', 'second4'], [n.name for n in second.subnodes]) # Check the 'second_1_bad' phandle is not copied over second1 = second.FindNode('second1') self.assertTrue(second1) sph = second1.props.get('phandle') self.assertTrue(sph) self.assertEqual(second1_ph_val, sph.bytes) dtb = fdt.FdtScan(find_dtb_file('dtoc_test_copy.dts')) tmpl = dtb.GetNode('/base') dst = dtb.GetNode('/dest') second1_ph_val = (dtb.GetNode('/dest/base/second/second1'). props['phandle'].bytes) dst.copy_node(tmpl) do_copy_checks(dtb, dst, second1_ph_val, expect_none=True) dtb.Sync(auto_resize=True) # Now check that the FDT looks correct new_dtb = fdt.Fdt.FromData(dtb.GetContents()) new_dtb.Scan() dst = new_dtb.GetNode('/dest') do_copy_checks(new_dtb, dst, second1_ph_val, expect_none=False) def test_copy_subnodes_from_phandles(self): """Test copy_node() function""" dtb = fdt.FdtScan(find_dtb_file('dtoc_test_copy.dts')) orig = dtb.GetNode('/') node_list = fdt_util.GetPhandleList(orig, 'copy-list') dst = dtb.GetNode('/dest') dst.copy_subnodes_from_phandles(node_list) pmic = dtb.GetNode('/dest/over') self.assertTrue(pmic) subn = dtb.GetNode('/dest/first@0') self.assertTrue(subn) self.assertEqual({'a-prop', 'b-prop', 'reg'}, subn.props.keys()) self.assertEqual( ['/dest/earlier', '/dest/later', '/dest/over', '/dest/first@0', '/dest/second', '/dest/existing', '/dest/base'], [n.path for n in dst.subnodes]) # Make sure that the phandle for 'over' is not copied over = dst.FindNode('over') tout.debug(f'keys: {over.props.keys()}') self.assertNotIn('phandle', over.props.keys()) # Check the merged properties, first the base ones in '/dest' expect = {'bootph-all', 'compatible', 'stringarray', 'longbytearray', 'maybe-empty-int'} # Properties from 'base' expect.update({'#address-cells', '#size-cells'}) # Properties from 'another' expect.add('new-prop') self.assertEqual(expect, set(dst.props.keys())) class TestProp(unittest.TestCase): """Test operation of the Prop class""" @classmethod def setUpClass(cls): tools.prepare_output_dir(None) @classmethod def tearDownClass(cls): tools.finalise_output_dir() def setUp(self): self.dtb = fdt.FdtScan(find_dtb_file('dtoc_test_simple.dts')) self.node = self.dtb.GetNode('/spl-test') self.fdt = self.dtb.GetFdtObj() def test_missing_node(self): """Test GetNode() when the node is missing""" self.assertEqual(None, self.dtb.GetNode('missing')) def test_phandle(self): """Test GetNode() on a phandle""" dtb = fdt.FdtScan(find_dtb_file('dtoc_test_phandle.dts')) node = dtb.GetNode('/phandle-source2') prop = node.props['clocks'] self.assertTrue(fdt32_to_cpu(prop.value) > 0) def _convert_prop(self, prop_name): """Helper function to look up a property in self.node and return it Args: str: Property name to find Returns: fdt.Prop: object for this property """ prop = self.fdt.getprop(self.node.Offset(), prop_name) return fdt.Prop(self.node, -1, prop_name, prop) def test_make_prop(self): """Test we can convert all the the types that are supported""" prop = self._convert_prop('boolval') self.assertEqual(Type.BOOL, prop.type) self.assertEqual(True, prop.value) prop = self._convert_prop('intval') self.assertEqual(Type.INT, prop.type) self.assertEqual(1, fdt32_to_cpu(prop.value)) prop = self._convert_prop('int64val') self.assertEqual(Type.INT, prop.type) self.assertEqual(0x123456789abcdef0, fdt64_to_cpu(prop.value)) prop = self._convert_prop('intarray') self.assertEqual(Type.INT, prop.type) val = [fdt32_to_cpu(val) for val in prop.value] self.assertEqual([2, 3, 4], val) prop = self._convert_prop('byteval') self.assertEqual(Type.BYTE, prop.type) self.assertEqual(5, ord(prop.value)) prop = self._convert_prop('longbytearray') self.assertEqual(Type.BYTE, prop.type) val = [ord(val) for val in prop.value] self.assertEqual([9, 10, 11, 12, 13, 14, 15, 16, 17], val) prop = self._convert_prop('stringval') self.assertEqual(Type.STRING, prop.type) self.assertEqual('message', prop.value) prop = self._convert_prop('stringarray') self.assertEqual(Type.STRING, prop.type) self.assertEqual(['multi-word', 'message'], prop.value) prop = self._convert_prop('notstring') self.assertEqual(Type.BYTE, prop.type) val = [ord(val) for val in prop.value] self.assertEqual([0x20, 0x21, 0x22, 0x10, 0], val) def test_get_empty(self): """Tests the GetEmpty() function for the various supported types""" self.assertEqual(True, fdt.Prop.GetEmpty(Type.BOOL)) self.assertEqual(chr(0), fdt.Prop.GetEmpty(Type.BYTE)) self.assertEqual(tools.get_bytes(0, 4), fdt.Prop.GetEmpty(Type.INT)) self.assertEqual('', fdt.Prop.GetEmpty(Type.STRING)) def test_get_offset(self): """Test we can get the offset of a property""" prop, value = _get_property_value(self.dtb, self.node, 'longbytearray') self.assertEqual(prop.value, value) def test_widen(self): """Test widening of values""" node2 = self.dtb.GetNode('/spl-test2') node3 = self.dtb.GetNode('/spl-test3') prop = self.node.props['intval'] # No action prop2 = node2.props['intval'] prop.Widen(prop2) self.assertEqual(Type.INT, prop.type) self.assertEqual(1, fdt32_to_cpu(prop.value)) # Convert single value to array prop2 = self.node.props['intarray'] prop.Widen(prop2) self.assertEqual(Type.INT, prop.type) self.assertTrue(isinstance(prop.value, list)) # A 4-byte array looks like a single integer. When widened by a longer # byte array, it should turn into an array. prop = self.node.props['longbytearray'] prop2 = node2.props['longbytearray'] prop3 = node3.props['longbytearray'] self.assertFalse(isinstance(prop2.value, list)) self.assertEqual(4, len(prop2.value)) self.assertEqual(b'\x09\x0a\x0b\x0c', prop2.value) prop2.Widen(prop) self.assertTrue(isinstance(prop2.value, list)) self.assertEqual(9, len(prop2.value)) self.assertEqual(['\x09', '\x0a', '\x0b', '\x0c', '\0', '\0', '\0', '\0', '\0'], prop2.value) prop3.Widen(prop) self.assertTrue(isinstance(prop3.value, list)) self.assertEqual(9, len(prop3.value)) self.assertEqual(['\x09', '\x0a', '\x0b', '\x0c', '\x0d', '\x0e', '\x0f', '\x10', '\0'], prop3.value) def test_widen_more(self): """More tests of widening values""" node2 = self.dtb.GetNode('/spl-test2') node3 = self.dtb.GetNode('/spl-test3') prop = self.node.props['intval'] # Test widening a single string into a string array prop = self.node.props['stringval'] prop2 = node2.props['stringarray'] self.assertFalse(isinstance(prop.value, list)) self.assertEqual(7, len(prop.value)) prop.Widen(prop2) self.assertTrue(isinstance(prop.value, list)) self.assertEqual(3, len(prop.value)) # Enlarging an existing array prop = self.node.props['stringarray'] prop2 = node2.props['stringarray'] self.assertTrue(isinstance(prop.value, list)) self.assertEqual(2, len(prop.value)) prop.Widen(prop2) self.assertTrue(isinstance(prop.value, list)) self.assertEqual(3, len(prop.value)) # Widen an array of ints with an int (should do nothing) prop = self.node.props['intarray'] prop2 = node2.props['intval'] self.assertEqual(Type.INT, prop.type) self.assertEqual(3, len(prop.value)) prop.Widen(prop2) self.assertEqual(Type.INT, prop.type) self.assertEqual(3, len(prop.value)) # Widen an empty bool to an int prop = self.node.props['maybe-empty-int'] prop3 = node3.props['maybe-empty-int'] self.assertEqual(Type.BOOL, prop.type) self.assertEqual(True, prop.value) self.assertEqual(Type.INT, prop3.type) self.assertFalse(isinstance(prop.value, list)) self.assertEqual(4, len(prop3.value)) prop.Widen(prop3) self.assertEqual(Type.INT, prop.type) self.assertTrue(isinstance(prop.value, list)) self.assertEqual(1, len(prop.value)) def test_add(self): """Test adding properties""" self.fdt.pack() # This function should automatically expand the device tree self.node.AddZeroProp('one') self.node.AddZeroProp('two') self.node.AddZeroProp('three') self.dtb.Sync(auto_resize=True) # Updating existing properties should be OK, since the device-tree size # does not change self.fdt.pack() self.node.SetInt('one', 1) self.node.SetInt('two', 2) self.node.SetInt('three', 3) self.dtb.Sync(auto_resize=False) # This should fail since it would need to increase the device-tree size self.node.AddZeroProp('four') with self.assertRaises(libfdt.FdtException) as exc: self.dtb.Sync(auto_resize=False) self.assertIn('FDT_ERR_NOSPACE', str(exc.exception)) self.dtb.Sync(auto_resize=True) def test_add_more(self): """Test various other methods for adding and setting properties""" self.node.AddZeroProp('one') self.dtb.Sync(auto_resize=True) data = self.fdt.getprop(self.node.Offset(), 'one') self.assertEqual(0, fdt32_to_cpu(data)) self.node.SetInt('one', 1) self.dtb.Sync(auto_resize=False) data = self.fdt.getprop(self.node.Offset(), 'one') self.assertEqual(1, fdt32_to_cpu(data)) val = 1234 self.node.AddInt('integer', val) self.dtb.Sync(auto_resize=True) data = self.fdt.getprop(self.node.Offset(), 'integer') self.assertEqual(val, fdt32_to_cpu(data)) val = '123' + chr(0) + '456' self.node.AddString('string', val) self.dtb.Sync(auto_resize=True) data = self.fdt.getprop(self.node.Offset(), 'string') self.assertEqual(tools.to_bytes(val) + b'\0', data) self.fdt.pack() self.node.SetString('string', val + 'x') with self.assertRaises(libfdt.FdtException) as exc: self.dtb.Sync(auto_resize=False) self.assertIn('FDT_ERR_NOSPACE', str(exc.exception)) self.node.SetString('string', val[:-1]) prop = self.node.props['string'] prop.SetData(tools.to_bytes(val)) self.dtb.Sync(auto_resize=False) data = self.fdt.getprop(self.node.Offset(), 'string') self.assertEqual(tools.to_bytes(val), data) self.node.AddEmptyProp('empty', 5) self.dtb.Sync(auto_resize=True) prop = self.node.props['empty'] prop.SetData(tools.to_bytes(val)) self.dtb.Sync(auto_resize=False) data = self.fdt.getprop(self.node.Offset(), 'empty') self.assertEqual(tools.to_bytes(val), data) self.node.SetData('empty', b'123') self.assertEqual(b'123', prop.bytes) # Trying adding a lot of data at once self.node.AddData('data', tools.get_bytes(65, 20000)) self.dtb.Sync(auto_resize=True) def test_string_list(self): """Test adding string-list property to a node""" val = ['123', '456'] self.node.AddStringList('stringlist', val) self.dtb.Sync(auto_resize=True) data = self.fdt.getprop(self.node.Offset(), 'stringlist') self.assertEqual(b'123\x00456\0', data) val = [] self.node.AddStringList('stringlist', val) self.dtb.Sync(auto_resize=True) data = self.fdt.getprop(self.node.Offset(), 'stringlist') self.assertEqual(b'', data) def test_delete_node(self): """Test deleting a node""" old_offset = self.fdt.path_offset('/spl-test') self.assertGreater(old_offset, 0) self.node.Delete() self.dtb.Sync() new_offset = self.fdt.path_offset('/spl-test', libfdt.QUIET_NOTFOUND) self.assertEqual(-libfdt.NOTFOUND, new_offset) def test_from_data(self): """Test creating an FDT from data""" dtb2 = fdt.Fdt.FromData(self.dtb.GetContents()) self.assertEqual(dtb2.GetContents(), self.dtb.GetContents()) self.node.AddEmptyProp('empty', 5) self.dtb.Sync(auto_resize=True) self.assertTrue(dtb2.GetContents() != self.dtb.GetContents()) def test_missing_set_int(self): """Test handling of a missing property with SetInt""" with self.assertRaises(ValueError) as exc: self.node.SetInt('one', 1) self.assertIn("node '/spl-test': Missing property 'one'", str(exc.exception)) def test_missing_set_data(self): """Test handling of a missing property with SetData""" with self.assertRaises(ValueError) as exc: self.node.SetData('one', b'data') self.assertIn("node '/spl-test': Missing property 'one'", str(exc.exception)) def test_missing_set_string(self): """Test handling of a missing property with SetString""" with self.assertRaises(ValueError) as exc: self.node.SetString('one', 1) self.assertIn("node '/spl-test': Missing property 'one'", str(exc.exception)) def test_get_filename(self): """Test the dtb filename can be provided""" self.assertEqual(tools.get_output_filename('source.dtb'), self.dtb.GetFilename()) class TestFdtUtil(unittest.TestCase): """Tests for the fdt_util module This module will likely be mostly replaced at some point, once upstream libfdt has better Python support. For now, this provides tests for current functionality. """ @classmethod def setUpClass(cls): tools.prepare_output_dir(None) @classmethod def tearDownClass(cls): tools.finalise_output_dir() def setUp(self): self.dtb = fdt.FdtScan(find_dtb_file('dtoc_test_simple.dts')) self.node = self.dtb.GetNode('/spl-test') def test_get_int(self): """Test getting an int from a node""" self.assertEqual(1, fdt_util.GetInt(self.node, 'intval')) self.assertEqual(3, fdt_util.GetInt(self.node, 'missing', 3)) with self.assertRaises(ValueError) as exc: fdt_util.GetInt(self.node, 'intarray') self.assertIn("property 'intarray' has list value: expecting a single " 'integer', str(exc.exception)) def test_get_int64(self): """Test getting a 64-bit int from a node""" self.assertEqual(0x123456789abcdef0, fdt_util.GetInt64(self.node, 'int64val')) self.assertEqual(3, fdt_util.GetInt64(self.node, 'missing', 3)) with self.assertRaises(ValueError) as exc: fdt_util.GetInt64(self.node, 'intarray') self.assertIn( "property 'intarray' should be a list with 2 items for 64-bit values", str(exc.exception)) def test_get_string(self): """Test getting a string from a node""" self.assertEqual('message', fdt_util.GetString(self.node, 'stringval')) self.assertEqual('test', fdt_util.GetString(self.node, 'missing', 'test')) self.assertEqual('', fdt_util.GetString(self.node, 'boolval')) with self.assertRaises(ValueError) as exc: self.assertEqual(3, fdt_util.GetString(self.node, 'stringarray')) self.assertIn("property 'stringarray' has list value: expecting a " 'single string', str(exc.exception)) def test_get_string_list(self): """Test getting a string list from a node""" self.assertEqual(['message'], fdt_util.GetStringList(self.node, 'stringval')) self.assertEqual( ['multi-word', 'message'], fdt_util.GetStringList(self.node, 'stringarray')) self.assertEqual(['test'], fdt_util.GetStringList(self.node, 'missing', ['test'])) self.assertEqual([], fdt_util.GetStringList(self.node, 'boolval')) def test_get_args(self): """Test getting arguments from a node""" node = self.dtb.GetNode('/orig-node') self.assertEqual(['message'], fdt_util.GetArgs(self.node, 'stringval')) self.assertEqual( ['multi-word', 'message'], fdt_util.GetArgs(self.node, 'stringarray')) self.assertEqual([], fdt_util.GetArgs(self.node, 'boolval')) self.assertEqual(['-n first', 'second', '-p', '123,456', '-x'], fdt_util.GetArgs(node, 'args')) self.assertEqual(['a space', 'there'], fdt_util.GetArgs(node, 'args2')) self.assertEqual(['-n', 'first', 'second', '-p', '123,456', '-x'], fdt_util.GetArgs(node, 'args3')) with self.assertRaises(ValueError) as exc: fdt_util.GetArgs(self.node, 'missing') self.assertIn( "Node '/spl-test': Expected property 'missing'", str(exc.exception)) def test_get_bool(self): """Test getting a bool from a node""" self.assertEqual(True, fdt_util.GetBool(self.node, 'boolval')) self.assertEqual(False, fdt_util.GetBool(self.node, 'missing')) self.assertEqual(True, fdt_util.GetBool(self.node, 'missing', True)) self.assertEqual(False, fdt_util.GetBool(self.node, 'missing', False)) def test_get_byte(self): """Test getting a byte from a node""" self.assertEqual(5, fdt_util.GetByte(self.node, 'byteval')) self.assertEqual(3, fdt_util.GetByte(self.node, 'missing', 3)) with self.assertRaises(ValueError) as exc: fdt_util.GetByte(self.node, 'longbytearray') self.assertIn("property 'longbytearray' has list value: expecting a " 'single byte', str(exc.exception)) with self.assertRaises(ValueError) as exc: fdt_util.GetByte(self.node, 'intval') self.assertIn("property 'intval' has length 4, expecting 1", str(exc.exception)) def test_get_bytes(self): """Test getting multiple bytes from a node""" self.assertEqual(bytes([5]), fdt_util.GetBytes(self.node, 'byteval', 1)) self.assertEqual(None, fdt_util.GetBytes(self.node, 'missing', 3)) self.assertEqual( bytes([3]), fdt_util.GetBytes(self.node, 'missing', 3, bytes([3]))) with self.assertRaises(ValueError) as exc: fdt_util.GetBytes(self.node, 'longbytearray', 7) self.assertIn( "Node 'spl-test' property 'longbytearray' has length 9, expecting 7", str(exc.exception)) self.assertEqual( bytes([0, 0, 0, 1]), fdt_util.GetBytes(self.node, 'intval', 4)) self.assertEqual( bytes([3]), fdt_util.GetBytes(self.node, 'missing', 3, bytes([3]))) def test_get_phandle_list(self): """Test getting a list of phandles from a node""" dtb = fdt.FdtScan(find_dtb_file('dtoc_test_phandle.dts')) node = dtb.GetNode('/phandle-source2') self.assertEqual([1], fdt_util.GetPhandleList(node, 'clocks')) node = dtb.GetNode('/phandle-source') self.assertEqual([1, 2, 11, 3, 12, 13, 1], fdt_util.GetPhandleList(node, 'clocks')) self.assertEqual(None, fdt_util.GetPhandleList(node, 'missing')) def test_get_data_type(self): """Test getting a value of a particular type from a node""" self.assertEqual(1, fdt_util.GetDatatype(self.node, 'intval', int)) self.assertEqual('message', fdt_util.GetDatatype(self.node, 'stringval', str)) with self.assertRaises(ValueError): self.assertEqual(3, fdt_util.GetDatatype(self.node, 'boolval', bool)) def test_fdt_cells_to_cpu(self): """Test getting cells with the correct endianness""" val = self.node.props['intarray'].value self.assertEqual(0, fdt_util.fdt_cells_to_cpu(val, 0)) self.assertEqual(2, fdt_util.fdt_cells_to_cpu(val, 1)) dtb2 = fdt.FdtScan(find_dtb_file('dtoc_test_addr64.dts')) node1 = dtb2.GetNode('/test1') val = node1.props['reg'].value self.assertEqual(0x1234, fdt_util.fdt_cells_to_cpu(val, 2)) node2 = dtb2.GetNode('/test2') val = node2.props['reg'].value self.assertEqual(0x1234567890123456, fdt_util.fdt_cells_to_cpu(val, 2)) self.assertEqual(0x9876543210987654, fdt_util.fdt_cells_to_cpu(val[2:], 2)) self.assertEqual(0x12345678, fdt_util.fdt_cells_to_cpu(val, 1)) def test_ensure_compiled(self): """Test a degenerate case of this function (file already compiled)""" dtb = fdt_util.EnsureCompiled(find_dtb_file('dtoc_test_simple.dts')) self.assertEqual(dtb, fdt_util.EnsureCompiled(dtb)) def test_ensure_compiled_tmpdir(self): """Test providing a temporary directory""" old_outdir = tools.outdir try: tools.outdir= None tmpdir = tempfile.mkdtemp(prefix='test_fdt.') dtb = fdt_util.EnsureCompiled(find_dtb_file('dtoc_test_simple.dts'), tmpdir) self.assertEqual(tmpdir, os.path.dirname(dtb)) shutil.rmtree(tmpdir) finally: tools.outdir = old_outdir def test_get_phandle_name_offset(self): val = fdt_util.GetPhandleNameOffset(self.node, 'missing') self.assertIsNone(val) dtb = fdt.FdtScan(find_dtb_file('dtoc_test_phandle.dts')) node = dtb.GetNode('/phandle-source') node, name, offset = fdt_util.GetPhandleNameOffset(node, 'phandle-name-offset') self.assertEqual('phandle3-target', node.name) self.assertEqual('fred', name) self.assertEqual(123, offset) def run_test_coverage(build_dir): """Run the tests and check that we get 100% coverage Args: build_dir (str): Directory containing the build output """ test_util.run_test_coverage('tools/dtoc/test_fdt.py', None, ['tools/patman/*.py', 'tools/u_boot_pylib/*', '*test_fdt.py'], build_dir) def run_tests(names, processes): """Run all the test we have for the fdt model Args: names (list of str): List of test names provided. Only the first is used processes (int): Number of processes to use (None means as many as there are CPUs on the system. This must be set to 1 when running under the python3-coverage tool Returns: int: Return code, 0 on success """ test_name = names[0] if names else None result = test_util.run_test_suites( 'test_fdt', False, False, False, processes, test_name, None, [TestFdt, TestNode, TestProp, TestFdtUtil]) return (0 if result.wasSuccessful() else 1) def main(): """Main program for this tool""" parser = ArgumentParser() parser.add_argument('-B', '--build-dir', type=str, default='b', help='Directory containing the build output') parser.add_argument('-P', '--processes', type=int, help='set number of processes to use for running tests') parser.add_argument('-t', '--test', action='store_true', dest='test', default=False, help='run tests') parser.add_argument('-T', '--test-coverage', action='store_true', default=False, help='run tests and check for 100% coverage') parser.add_argument('name', nargs='*') args = parser.parse_args() # Run our meagre tests if args.test: ret_code = run_tests(args.name, args.processes) return ret_code if args.test_coverage: run_test_coverage(args.build_dir) return 0 if __name__ == '__main__': sys.exit(main())