#!/usr/bin/env python3 # SPDX-License-Identifier: GPL-2.0+ # Copyright (c) 2012 The Chromium OS Authors. # """Tests for the dtb_platdata module This includes unit tests for some functions and functional tests for the dtoc tool. """ import collections import os import struct import sys import unittest from dtoc import dtb_platdata from dtb_platdata import conv_name_to_c from dtb_platdata import get_compat_name from dtb_platdata import get_value from dtb_platdata import tab_to from dtoc import fdt from dtoc import fdt_util from patman import test_util from patman import tools our_path = os.path.dirname(os.path.realpath(__file__)) HEADER = '''/* * DO NOT MODIFY * * This file was generated by dtoc from a .dtb (device tree binary) file. */ #include #include ''' C_HEADER = '''/* * DO NOT MODIFY * * This file was generated by dtoc from a .dtb (device tree binary) file. */ #include #include #include ''' C_EMPTY_POPULATE_PHANDLE_DATA = '''void dm_populate_phandle_data(void) { } ''' def get_dtb_file(dts_fname, capture_stderr=False): """Compile a .dts file to a .dtb Args: dts_fname: Filename of .dts file in the current directory capture_stderr: True to capture and discard stderr output Returns: Filename of compiled file in output directory """ return fdt_util.EnsureCompiled(os.path.join(our_path, dts_fname), capture_stderr=capture_stderr) class TestDtoc(unittest.TestCase): """Tests for dtoc""" @classmethod def setUpClass(cls): tools.PrepareOutputDir(None) @classmethod def tearDownClass(cls): tools._RemoveOutputDir() def _WritePythonString(self, fname, data): """Write a string with tabs expanded as done in this Python file Args: fname: Filename to write to data: Raw string to convert """ data = data.replace('\t', '\\t') with open(fname, 'w') as fd: fd.write(data) def _CheckStrings(self, expected, actual): """Check that a string matches its expected value If the strings do not match, they are written to the /tmp directory in the same Python format as is used here in the test. This allows for easy comparison and update of the tests. Args: expected: Expected string actual: Actual string """ if expected != actual: self._WritePythonString('/tmp/binman.expected', expected) self._WritePythonString('/tmp/binman.actual', actual) print('Failures written to /tmp/binman.{expected,actual}') self.assertEquals(expected, actual) def run_test(self, args, dtb_file, output): dtb_platdata.run_steps(args, dtb_file, False, output, True) def test_name(self): """Test conversion of device tree names to C identifiers""" self.assertEqual('serial_at_0x12', conv_name_to_c('serial@0x12')) self.assertEqual('vendor_clock_frequency', conv_name_to_c('vendor,clock-frequency')) self.assertEqual('rockchip_rk3399_sdhci_5_1', conv_name_to_c('rockchip,rk3399-sdhci-5.1')) def test_tab_to(self): """Test operation of tab_to() function""" self.assertEqual('fred ', tab_to(0, 'fred')) self.assertEqual('fred\t', tab_to(1, 'fred')) self.assertEqual('fred was here ', tab_to(1, 'fred was here')) self.assertEqual('fred was here\t\t', tab_to(3, 'fred was here')) self.assertEqual('exactly8 ', tab_to(1, 'exactly8')) self.assertEqual('exactly8\t', tab_to(2, 'exactly8')) def test_get_value(self): """Test operation of get_value() function""" self.assertEqual('0x45', get_value(fdt.TYPE_INT, struct.pack('>I', 0x45))) self.assertEqual('0x45', get_value(fdt.TYPE_BYTE, struct.pack('I', 0x45))) self.assertEqual('"test"', get_value(fdt.TYPE_STRING, 'test')) self.assertEqual('true', get_value(fdt.TYPE_BOOL, None)) def test_get_compat_name(self): """Test operation of get_compat_name() function""" Prop = collections.namedtuple('Prop', ['value']) Node = collections.namedtuple('Node', ['props']) prop = Prop(['rockchip,rk3399-sdhci-5.1', 'arasan,sdhci-5.1']) node = Node({'compatible': prop}) self.assertEqual(('rockchip_rk3399_sdhci_5_1', ['arasan_sdhci_5_1']), get_compat_name(node)) prop = Prop(['rockchip,rk3399-sdhci-5.1']) node = Node({'compatible': prop}) self.assertEqual(('rockchip_rk3399_sdhci_5_1', []), get_compat_name(node)) prop = Prop(['rockchip,rk3399-sdhci-5.1', 'arasan,sdhci-5.1', 'third']) node = Node({'compatible': prop}) self.assertEqual(('rockchip_rk3399_sdhci_5_1', ['arasan_sdhci_5_1', 'third']), get_compat_name(node)) def test_empty_file(self): """Test output from a device tree file with no nodes""" dtb_file = get_dtb_file('dtoc_test_empty.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: lines = infile.read().splitlines() self.assertEqual(HEADER.splitlines(), lines) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: lines = infile.read().splitlines() self.assertEqual(C_HEADER.splitlines() + [''] + C_EMPTY_POPULATE_PHANDLE_DATA.splitlines(), lines) def test_simple(self): """Test output from some simple nodes with various types of data""" dtb_file = get_dtb_file('dtoc_test_simple.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_sandbox_i2c_test { }; struct dtd_sandbox_pmic_test { \tbool\t\tlow_power; \tfdt64_t\t\treg[2]; }; struct dtd_sandbox_spl_test { \tbool\t\tboolval; \tunsigned char\tbytearray[3]; \tunsigned char\tbyteval; \tfdt32_t\t\tintarray[4]; \tfdt32_t\t\tintval; \tunsigned char\tlongbytearray[9]; \tunsigned char\tnotstring[5]; \tconst char *\tstringarray[3]; \tconst char *\tstringval; }; struct dtd_sandbox_spl_test_2 { }; ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_sandbox_spl_test dtv_spl_test = { \t.boolval\t\t= true, \t.bytearray\t\t= {0x6, 0x0, 0x0}, \t.byteval\t\t= 0x5, \t.intarray\t\t= {0x2, 0x3, 0x4, 0x0}, \t.intval\t\t\t= 0x1, \t.longbytearray\t\t= {0x9, 0xa, 0xb, 0xc, 0xd, 0xe, 0xf, 0x10, \t\t0x11}, \t.notstring\t\t= {0x20, 0x21, 0x22, 0x10, 0x0}, \t.stringarray\t\t= {"multi-word", "message", ""}, \t.stringval\t\t= "message", }; U_BOOT_DEVICE(spl_test) = { \t.name\t\t= "sandbox_spl_test", \t.platdata\t= &dtv_spl_test, \t.platdata_size\t= sizeof(dtv_spl_test), }; static struct dtd_sandbox_spl_test dtv_spl_test2 = { \t.bytearray\t\t= {0x1, 0x23, 0x34}, \t.byteval\t\t= 0x8, \t.intarray\t\t= {0x5, 0x0, 0x0, 0x0}, \t.intval\t\t\t= 0x3, \t.longbytearray\t\t= {0x9, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, \t\t0x0}, \t.stringarray\t\t= {"another", "multi-word", "message"}, \t.stringval\t\t= "message2", }; U_BOOT_DEVICE(spl_test2) = { \t.name\t\t= "sandbox_spl_test", \t.platdata\t= &dtv_spl_test2, \t.platdata_size\t= sizeof(dtv_spl_test2), }; static struct dtd_sandbox_spl_test dtv_spl_test3 = { \t.stringarray\t\t= {"one", "", ""}, }; U_BOOT_DEVICE(spl_test3) = { \t.name\t\t= "sandbox_spl_test", \t.platdata\t= &dtv_spl_test3, \t.platdata_size\t= sizeof(dtv_spl_test3), }; static struct dtd_sandbox_spl_test_2 dtv_spl_test4 = { }; U_BOOT_DEVICE(spl_test4) = { \t.name\t\t= "sandbox_spl_test_2", \t.platdata\t= &dtv_spl_test4, \t.platdata_size\t= sizeof(dtv_spl_test4), }; static struct dtd_sandbox_i2c_test dtv_i2c_at_0 = { }; U_BOOT_DEVICE(i2c_at_0) = { \t.name\t\t= "sandbox_i2c_test", \t.platdata\t= &dtv_i2c_at_0, \t.platdata_size\t= sizeof(dtv_i2c_at_0), }; static struct dtd_sandbox_pmic_test dtv_pmic_at_9 = { \t.low_power\t\t= true, \t.reg\t\t\t= {0x9, 0x0}, }; U_BOOT_DEVICE(pmic_at_9) = { \t.name\t\t= "sandbox_pmic_test", \t.platdata\t= &dtv_pmic_at_9, \t.platdata_size\t= sizeof(dtv_pmic_at_9), }; ''' + C_EMPTY_POPULATE_PHANDLE_DATA, data) def test_driver_alias(self): """Test output from a device tree file with a driver alias""" dtb_file = get_dtb_file('dtoc_test_driver_alias.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_sandbox_gpio { \tconst char *\tgpio_bank_name; \tbool\t\tgpio_controller; \tfdt32_t\t\tsandbox_gpio_count; }; #define dtd_sandbox_gpio_alias dtd_sandbox_gpio ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_sandbox_gpio dtv_gpios_at_0 = { \t.gpio_bank_name\t\t= "a", \t.gpio_controller\t= true, \t.sandbox_gpio_count\t= 0x14, }; U_BOOT_DEVICE(gpios_at_0) = { \t.name\t\t= "sandbox_gpio", \t.platdata\t= &dtv_gpios_at_0, \t.platdata_size\t= sizeof(dtv_gpios_at_0), }; void dm_populate_phandle_data(void) { } ''', data) def test_invalid_driver(self): """Test output from a device tree file with an invalid driver""" dtb_file = get_dtb_file('dtoc_test_invalid_driver.dts') output = tools.GetOutputFilename('output') with test_util.capture_sys_output() as (stdout, stderr): dtb_platdata.run_steps(['struct'], dtb_file, False, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_invalid { }; ''', data) with test_util.capture_sys_output() as (stdout, stderr): dtb_platdata.run_steps(['platdata'], dtb_file, False, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_invalid dtv_spl_test = { }; U_BOOT_DEVICE(spl_test) = { \t.name\t\t= "invalid", \t.platdata\t= &dtv_spl_test, \t.platdata_size\t= sizeof(dtv_spl_test), }; void dm_populate_phandle_data(void) { } ''', data) def test_phandle(self): """Test output from a node containing a phandle reference""" dtb_file = get_dtb_file('dtoc_test_phandle.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_source { \tstruct phandle_2_arg clocks[4]; }; struct dtd_target { \tfdt32_t\t\tintval; }; ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_target dtv_phandle_target = { \t.intval\t\t\t= 0x0, }; U_BOOT_DEVICE(phandle_target) = { \t.name\t\t= "target", \t.platdata\t= &dtv_phandle_target, \t.platdata_size\t= sizeof(dtv_phandle_target), }; static struct dtd_target dtv_phandle2_target = { \t.intval\t\t\t= 0x1, }; U_BOOT_DEVICE(phandle2_target) = { \t.name\t\t= "target", \t.platdata\t= &dtv_phandle2_target, \t.platdata_size\t= sizeof(dtv_phandle2_target), }; static struct dtd_target dtv_phandle3_target = { \t.intval\t\t\t= 0x2, }; U_BOOT_DEVICE(phandle3_target) = { \t.name\t\t= "target", \t.platdata\t= &dtv_phandle3_target, \t.platdata_size\t= sizeof(dtv_phandle3_target), }; static struct dtd_source dtv_phandle_source = { \t.clocks\t\t\t= { \t\t\t{NULL, {}}, \t\t\t{NULL, {11}}, \t\t\t{NULL, {12, 13}}, \t\t\t{NULL, {}},}, }; U_BOOT_DEVICE(phandle_source) = { \t.name\t\t= "source", \t.platdata\t= &dtv_phandle_source, \t.platdata_size\t= sizeof(dtv_phandle_source), }; static struct dtd_source dtv_phandle_source2 = { \t.clocks\t\t\t= { \t\t\t{NULL, {}},}, }; U_BOOT_DEVICE(phandle_source2) = { \t.name\t\t= "source", \t.platdata\t= &dtv_phandle_source2, \t.platdata_size\t= sizeof(dtv_phandle_source2), }; void dm_populate_phandle_data(void) { \tdtv_phandle_source.clocks[0].node = DM_GET_DEVICE(phandle_target); \tdtv_phandle_source.clocks[1].node = DM_GET_DEVICE(phandle2_target); \tdtv_phandle_source.clocks[2].node = DM_GET_DEVICE(phandle3_target); \tdtv_phandle_source.clocks[3].node = DM_GET_DEVICE(phandle_target); \tdtv_phandle_source2.clocks[0].node = DM_GET_DEVICE(phandle_target); } ''', data) def test_phandle_single(self): """Test output from a node containing a phandle reference""" dtb_file = get_dtb_file('dtoc_test_phandle_single.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_source { \tstruct phandle_0_arg clocks[1]; }; struct dtd_target { \tfdt32_t\t\tintval; }; ''', data) def test_phandle_reorder(self): """Test that phandle targets are generated before their references""" dtb_file = get_dtb_file('dtoc_test_phandle_reorder.dts') output = tools.GetOutputFilename('output') self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_target dtv_phandle_target = { }; U_BOOT_DEVICE(phandle_target) = { \t.name\t\t= "target", \t.platdata\t= &dtv_phandle_target, \t.platdata_size\t= sizeof(dtv_phandle_target), }; static struct dtd_source dtv_phandle_source2 = { \t.clocks\t\t\t= { \t\t\t{NULL, {}},}, }; U_BOOT_DEVICE(phandle_source2) = { \t.name\t\t= "source", \t.platdata\t= &dtv_phandle_source2, \t.platdata_size\t= sizeof(dtv_phandle_source2), }; void dm_populate_phandle_data(void) { \tdtv_phandle_source2.clocks[0].node = DM_GET_DEVICE(phandle_target); } ''', data) def test_phandle_cd_gpio(self): """Test that phandle targets are generated when unsing cd-gpios""" dtb_file = get_dtb_file('dtoc_test_phandle_cd_gpios.dts') output = tools.GetOutputFilename('output') dtb_platdata.run_steps(['platdata'], dtb_file, False, output, True) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_target dtv_phandle_target = { \t.intval\t\t\t= 0x0, }; U_BOOT_DEVICE(phandle_target) = { \t.name\t\t= "target", \t.platdata\t= &dtv_phandle_target, \t.platdata_size\t= sizeof(dtv_phandle_target), }; static struct dtd_target dtv_phandle2_target = { \t.intval\t\t\t= 0x1, }; U_BOOT_DEVICE(phandle2_target) = { \t.name\t\t= "target", \t.platdata\t= &dtv_phandle2_target, \t.platdata_size\t= sizeof(dtv_phandle2_target), }; static struct dtd_target dtv_phandle3_target = { \t.intval\t\t\t= 0x2, }; U_BOOT_DEVICE(phandle3_target) = { \t.name\t\t= "target", \t.platdata\t= &dtv_phandle3_target, \t.platdata_size\t= sizeof(dtv_phandle3_target), }; static struct dtd_source dtv_phandle_source = { \t.cd_gpios\t\t= { \t\t\t{NULL, {}}, \t\t\t{NULL, {11}}, \t\t\t{NULL, {12, 13}}, \t\t\t{NULL, {}},}, }; U_BOOT_DEVICE(phandle_source) = { \t.name\t\t= "source", \t.platdata\t= &dtv_phandle_source, \t.platdata_size\t= sizeof(dtv_phandle_source), }; static struct dtd_source dtv_phandle_source2 = { \t.cd_gpios\t\t= { \t\t\t{NULL, {}},}, }; U_BOOT_DEVICE(phandle_source2) = { \t.name\t\t= "source", \t.platdata\t= &dtv_phandle_source2, \t.platdata_size\t= sizeof(dtv_phandle_source2), }; void dm_populate_phandle_data(void) { \tdtv_phandle_source.cd_gpios[0].node = DM_GET_DEVICE(phandle_target); \tdtv_phandle_source.cd_gpios[1].node = DM_GET_DEVICE(phandle2_target); \tdtv_phandle_source.cd_gpios[2].node = DM_GET_DEVICE(phandle3_target); \tdtv_phandle_source.cd_gpios[3].node = DM_GET_DEVICE(phandle_target); \tdtv_phandle_source2.cd_gpios[0].node = DM_GET_DEVICE(phandle_target); } ''', data) def test_phandle_bad(self): """Test a node containing an invalid phandle fails""" dtb_file = get_dtb_file('dtoc_test_phandle_bad.dts', capture_stderr=True) output = tools.GetOutputFilename('output') with self.assertRaises(ValueError) as e: self.run_test(['struct'], dtb_file, output) self.assertIn("Cannot parse 'clocks' in node 'phandle-source'", str(e.exception)) def test_phandle_bad2(self): """Test a phandle target missing its #*-cells property""" dtb_file = get_dtb_file('dtoc_test_phandle_bad2.dts', capture_stderr=True) output = tools.GetOutputFilename('output') with self.assertRaises(ValueError) as e: self.run_test(['struct'], dtb_file, output) self.assertIn("Node 'phandle-target' has no cells property", str(e.exception)) def test_aliases(self): """Test output from a node with multiple compatible strings""" dtb_file = get_dtb_file('dtoc_test_aliases.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_compat1 { \tfdt32_t\t\tintval; }; #define dtd_compat2_1_fred dtd_compat1 #define dtd_compat3 dtd_compat1 ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_compat1 dtv_spl_test = { \t.intval\t\t\t= 0x1, }; U_BOOT_DEVICE(spl_test) = { \t.name\t\t= "compat1", \t.platdata\t= &dtv_spl_test, \t.platdata_size\t= sizeof(dtv_spl_test), }; ''' + C_EMPTY_POPULATE_PHANDLE_DATA, data) def test_addresses64(self): """Test output from a node with a 'reg' property with na=2, ns=2""" dtb_file = get_dtb_file('dtoc_test_addr64.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_test1 { \tfdt64_t\t\treg[2]; }; struct dtd_test2 { \tfdt64_t\t\treg[2]; }; struct dtd_test3 { \tfdt64_t\t\treg[4]; }; ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_test1 dtv_test1 = { \t.reg\t\t\t= {0x1234, 0x5678}, }; U_BOOT_DEVICE(test1) = { \t.name\t\t= "test1", \t.platdata\t= &dtv_test1, \t.platdata_size\t= sizeof(dtv_test1), }; static struct dtd_test2 dtv_test2 = { \t.reg\t\t\t= {0x1234567890123456, 0x9876543210987654}, }; U_BOOT_DEVICE(test2) = { \t.name\t\t= "test2", \t.platdata\t= &dtv_test2, \t.platdata_size\t= sizeof(dtv_test2), }; static struct dtd_test3 dtv_test3 = { \t.reg\t\t\t= {0x1234567890123456, 0x9876543210987654, 0x2, 0x3}, }; U_BOOT_DEVICE(test3) = { \t.name\t\t= "test3", \t.platdata\t= &dtv_test3, \t.platdata_size\t= sizeof(dtv_test3), }; ''' + C_EMPTY_POPULATE_PHANDLE_DATA, data) def test_addresses32(self): """Test output from a node with a 'reg' property with na=1, ns=1""" dtb_file = get_dtb_file('dtoc_test_addr32.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_test1 { \tfdt32_t\t\treg[2]; }; struct dtd_test2 { \tfdt32_t\t\treg[4]; }; ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_test1 dtv_test1 = { \t.reg\t\t\t= {0x1234, 0x5678}, }; U_BOOT_DEVICE(test1) = { \t.name\t\t= "test1", \t.platdata\t= &dtv_test1, \t.platdata_size\t= sizeof(dtv_test1), }; static struct dtd_test2 dtv_test2 = { \t.reg\t\t\t= {0x12345678, 0x98765432, 0x2, 0x3}, }; U_BOOT_DEVICE(test2) = { \t.name\t\t= "test2", \t.platdata\t= &dtv_test2, \t.platdata_size\t= sizeof(dtv_test2), }; ''' + C_EMPTY_POPULATE_PHANDLE_DATA, data) def test_addresses64_32(self): """Test output from a node with a 'reg' property with na=2, ns=1""" dtb_file = get_dtb_file('dtoc_test_addr64_32.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_test1 { \tfdt64_t\t\treg[2]; }; struct dtd_test2 { \tfdt64_t\t\treg[2]; }; struct dtd_test3 { \tfdt64_t\t\treg[4]; }; ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_test1 dtv_test1 = { \t.reg\t\t\t= {0x123400000000, 0x5678}, }; U_BOOT_DEVICE(test1) = { \t.name\t\t= "test1", \t.platdata\t= &dtv_test1, \t.platdata_size\t= sizeof(dtv_test1), }; static struct dtd_test2 dtv_test2 = { \t.reg\t\t\t= {0x1234567890123456, 0x98765432}, }; U_BOOT_DEVICE(test2) = { \t.name\t\t= "test2", \t.platdata\t= &dtv_test2, \t.platdata_size\t= sizeof(dtv_test2), }; static struct dtd_test3 dtv_test3 = { \t.reg\t\t\t= {0x1234567890123456, 0x98765432, 0x2, 0x3}, }; U_BOOT_DEVICE(test3) = { \t.name\t\t= "test3", \t.platdata\t= &dtv_test3, \t.platdata_size\t= sizeof(dtv_test3), }; ''' + C_EMPTY_POPULATE_PHANDLE_DATA, data) def test_addresses32_64(self): """Test output from a node with a 'reg' property with na=1, ns=2""" dtb_file = get_dtb_file('dtoc_test_addr32_64.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_test1 { \tfdt64_t\t\treg[2]; }; struct dtd_test2 { \tfdt64_t\t\treg[2]; }; struct dtd_test3 { \tfdt64_t\t\treg[4]; }; ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_test1 dtv_test1 = { \t.reg\t\t\t= {0x1234, 0x567800000000}, }; U_BOOT_DEVICE(test1) = { \t.name\t\t= "test1", \t.platdata\t= &dtv_test1, \t.platdata_size\t= sizeof(dtv_test1), }; static struct dtd_test2 dtv_test2 = { \t.reg\t\t\t= {0x12345678, 0x9876543210987654}, }; U_BOOT_DEVICE(test2) = { \t.name\t\t= "test2", \t.platdata\t= &dtv_test2, \t.platdata_size\t= sizeof(dtv_test2), }; static struct dtd_test3 dtv_test3 = { \t.reg\t\t\t= {0x12345678, 0x9876543210987654, 0x2, 0x3}, }; U_BOOT_DEVICE(test3) = { \t.name\t\t= "test3", \t.platdata\t= &dtv_test3, \t.platdata_size\t= sizeof(dtv_test3), }; ''' + C_EMPTY_POPULATE_PHANDLE_DATA, data) def test_bad_reg(self): """Test that a reg property with an invalid type generates an error""" # Capture stderr since dtc will emit warnings for this file dtb_file = get_dtb_file('dtoc_test_bad_reg.dts', capture_stderr=True) output = tools.GetOutputFilename('output') with self.assertRaises(ValueError) as e: self.run_test(['struct'], dtb_file, output) self.assertIn("Node 'spl-test' reg property is not an int", str(e.exception)) def test_bad_reg2(self): """Test that a reg property with an invalid cell count is detected""" # Capture stderr since dtc will emit warnings for this file dtb_file = get_dtb_file('dtoc_test_bad_reg2.dts', capture_stderr=True) output = tools.GetOutputFilename('output') with self.assertRaises(ValueError) as e: self.run_test(['struct'], dtb_file, output) self.assertIn("Node 'spl-test' reg property has 3 cells which is not a multiple of na + ns = 1 + 1)", str(e.exception)) def test_add_prop(self): """Test that a subequent node can add a new property to a struct""" dtb_file = get_dtb_file('dtoc_test_add_prop.dts') output = tools.GetOutputFilename('output') self.run_test(['struct'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(HEADER + ''' struct dtd_sandbox_spl_test { \tfdt32_t\t\tintarray; \tfdt32_t\t\tintval; }; ''', data) self.run_test(['platdata'], dtb_file, output) with open(output) as infile: data = infile.read() self._CheckStrings(C_HEADER + ''' static struct dtd_sandbox_spl_test dtv_spl_test = { \t.intval\t\t\t= 0x1, }; U_BOOT_DEVICE(spl_test) = { \t.name\t\t= "sandbox_spl_test", \t.platdata\t= &dtv_spl_test, \t.platdata_size\t= sizeof(dtv_spl_test), }; static struct dtd_sandbox_spl_test dtv_spl_test2 = { \t.intarray\t\t= 0x5, }; U_BOOT_DEVICE(spl_test2) = { \t.name\t\t= "sandbox_spl_test", \t.platdata\t= &dtv_spl_test2, \t.platdata_size\t= sizeof(dtv_spl_test2), }; ''' + C_EMPTY_POPULATE_PHANDLE_DATA, data) def testStdout(self): """Test output to stdout""" dtb_file = get_dtb_file('dtoc_test_simple.dts') with test_util.capture_sys_output() as (stdout, stderr): self.run_test(['struct'], dtb_file, '-') def testNoCommand(self): """Test running dtoc without a command""" with self.assertRaises(ValueError) as e: self.run_test([], '', '') self.assertIn("Please specify a command: struct, platdata", str(e.exception)) def testBadCommand(self): """Test running dtoc with an invalid command""" dtb_file = get_dtb_file('dtoc_test_simple.dts') output = tools.GetOutputFilename('output') with self.assertRaises(ValueError) as e: self.run_test(['invalid-cmd'], dtb_file, output) self.assertIn("Unknown command 'invalid-cmd': (use: struct, platdata)", str(e.exception))