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# Unit test for generate_test_code.py
#
# Copyright (C) 2018, ARM Limited, All Rights Reserved
# SPDX-License-Identifier: Apache-2.0
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# This file is part of mbed TLS (https://tls.mbed.org)
from StringIO import StringIO
from unittest import TestCase, main as unittest_main
from mock import patch
from generate_test_code import *
"""
Unit tests for generate_test_code.py
"""
class GenDep(TestCase):
"""
Test suite for function gen_dep()
"""
def test_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = ['DEP1', 'DEP2']
dep_start, dep_end = gen_deps(deps)
ifdef1, ifdef2 = dep_start.splitlines()
endif1, endif2 = dep_end.splitlines()
self.assertEqual(ifdef1, '#if defined(DEP1)', 'ifdef generated incorrectly')
self.assertEqual(ifdef2, '#if defined(DEP2)', 'ifdef generated incorrectly')
self.assertEqual(endif1, '#endif /* DEP2 */', 'endif generated incorrectly')
self.assertEqual(endif2, '#endif /* DEP1 */', 'endif generated incorrectly')
def test_disabled_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = ['!DEP1', '!DEP2']
dep_start, dep_end = gen_deps(deps)
ifdef1, ifdef2 = dep_start.splitlines()
endif1, endif2 = dep_end.splitlines()
self.assertEqual(ifdef1, '#if !defined(DEP1)', 'ifdef generated incorrectly')
self.assertEqual(ifdef2, '#if !defined(DEP2)', 'ifdef generated incorrectly')
self.assertEqual(endif1, '#endif /* !DEP2 */', 'endif generated incorrectly')
self.assertEqual(endif2, '#endif /* !DEP1 */', 'endif generated incorrectly')
def test_mixed_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = ['!DEP1', 'DEP2']
dep_start, dep_end = gen_deps(deps)
ifdef1, ifdef2 = dep_start.splitlines()
endif1, endif2 = dep_end.splitlines()
self.assertEqual(ifdef1, '#if !defined(DEP1)', 'ifdef generated incorrectly')
self.assertEqual(ifdef2, '#if defined(DEP2)', 'ifdef generated incorrectly')
self.assertEqual(endif1, '#endif /* DEP2 */', 'endif generated incorrectly')
self.assertEqual(endif2, '#endif /* !DEP1 */', 'endif generated incorrectly')
def test_empty_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = []
dep_start, dep_end = gen_deps(deps)
self.assertEqual(dep_start, '', 'ifdef generated incorrectly')
self.assertEqual(dep_end, '', 'ifdef generated incorrectly')
def test_large_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = []
count = 10
for i in range(count):
deps.append('DEP%d' % i)
dep_start, dep_end = gen_deps(deps)
self.assertEqual(len(dep_start.splitlines()), count, 'ifdef generated incorrectly')
self.assertEqual(len(dep_end.splitlines()), count, 'ifdef generated incorrectly')
class GenDepOneLine(TestCase):
"""
Test Suite for testing gen_deps_one_line()
"""
def test_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = ['DEP1', 'DEP2']
dep_str = gen_deps_one_line(deps)
self.assertEqual(dep_str, '#if defined(DEP1) && defined(DEP2)', 'ifdef generated incorrectly')
def test_disabled_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = ['!DEP1', '!DEP2']
dep_str = gen_deps_one_line(deps)
self.assertEqual(dep_str, '#if !defined(DEP1) && !defined(DEP2)', 'ifdef generated incorrectly')
def test_mixed_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = ['!DEP1', 'DEP2']
dep_str = gen_deps_one_line(deps)
self.assertEqual(dep_str, '#if !defined(DEP1) && defined(DEP2)', 'ifdef generated incorrectly')
def test_empty_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = []
dep_str = gen_deps_one_line(deps)
self.assertEqual(dep_str, '', 'ifdef generated incorrectly')
def test_large_deps_list(self):
"""
Test that gen_dep() correctly creates deps for given dependency list.
:return:
"""
deps = []
count = 10
for i in range(count):
deps.append('DEP%d' % i)
dep_str = gen_deps_one_line(deps)
expected = '#if ' + ' && '.join(['defined(%s)' % x for x in deps])
self.assertEqual(dep_str, expected, 'ifdef generated incorrectly')
class GenFunctionWrapper(TestCase):
"""
Test Suite for testing gen_function_wrapper()
"""
def test_params_unpack(self):
"""
Test that params are properly unpacked in the function call.
:return:
"""
code = gen_function_wrapper('test_a', '', ('a', 'b', 'c', 'd'))
expected = '''
void test_a_wrapper( void ** params )
{
test_a( a, b, c, d );
}
'''
self.assertEqual(code, expected)
def test_local(self):
"""
Test that params are properly unpacked in the function call.
:return:
"""
code = gen_function_wrapper('test_a', 'int x = 1;', ('x', 'b', 'c', 'd'))
expected = '''
void test_a_wrapper( void ** params )
{
int x = 1;
test_a( x, b, c, d );
}
'''
self.assertEqual(code, expected)
def test_empty_params(self):
"""
Test that params are properly unpacked in the function call.
:return:
"""
code = gen_function_wrapper('test_a', '', ())
expected = '''
void test_a_wrapper( void ** params )
{
(void)params;
test_a( );
}
'''
self.assertEqual(code, expected)
class GenDispatch(TestCase):
"""
Test suite for testing gen_dispatch()
"""
def test_dispatch(self):
"""
Test that dispatch table entry is generated correctly.
:return:
"""
code = gen_dispatch('test_a', ['DEP1', 'DEP2'])
expected = '''
#if defined(DEP1) && defined(DEP2)
test_a_wrapper,
#else
NULL,
#endif
'''
self.assertEqual(code, expected)
def test_empty_deps(self):
"""
Test empty dependency list.
:return:
"""
code = gen_dispatch('test_a', [])
expected = '''
test_a_wrapper,
'''
self.assertEqual(code, expected)
class StringIOWrapper(StringIO, object):
"""
file like class to mock file object in tests.
"""
def __init__(self, file_name, data, line_no = 1):
"""
Init file handle.
:param file_name:
:param data:
:param line_no:
"""
super(StringIOWrapper, self).__init__(data)
self.line_no = line_no
self.name = file_name
def next(self):
"""
Iterator return impl.
:return:
"""
line = super(StringIOWrapper, self).next()
return line
def readline(self, limit=0):
"""
Wrap the base class readline.
:param limit:
:return:
"""
line = super(StringIOWrapper, self).readline()
if line:
self.line_no += 1
return line
class ParseUntilPattern(TestCase):
"""
Test Suite for testing parse_until_pattern().
"""
def test_suite_headers(self):
"""
Test that suite headers are parsed correctly.
:return:
"""
data = '''#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
/* END_HEADER */
'''
expected = '''#line 1 "test_suite_ut.function"
#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
'''
s = StringIOWrapper('test_suite_ut.function', data, line_no=0)
headers = parse_until_pattern(s, END_HEADER_REGEX)
self.assertEqual(headers, expected)
def test_line_no(self):
"""
Test that #line is set to correct line no. in source .function file.
:return:
"""
data = '''#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
/* END_HEADER */
'''
offset_line_no = 5
expected = '''#line %d "test_suite_ut.function"
#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
''' % (offset_line_no + 1)
s = StringIOWrapper('test_suite_ut.function', data, offset_line_no)
headers = parse_until_pattern(s, END_HEADER_REGEX)
self.assertEqual(headers, expected)
def test_no_end_header_comment(self):
"""
Test that InvalidFileFormat is raised when end header comment is missing.
:return:
"""
data = '''#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(InvalidFileFormat, parse_until_pattern, s, END_HEADER_REGEX)
class ParseSuiteDeps(TestCase):
"""
Test Suite for testing parse_suite_deps().
"""
def test_suite_deps(self):
"""
:return:
"""
data = '''
* depends_on:MBEDTLS_ECP_C
* END_DEPENDENCIES
*/
'''
expected = ['MBEDTLS_ECP_C']
s = StringIOWrapper('test_suite_ut.function', data)
deps = parse_suite_deps(s)
self.assertEqual(deps, expected)
def test_no_end_dep_comment(self):
"""
Test that InvalidFileFormat is raised when end dep comment is missing.
:return:
"""
data = '''
* depends_on:MBEDTLS_ECP_C
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(InvalidFileFormat, parse_suite_deps, s)
def test_deps_split(self):
"""
Test that InvalidFileFormat is raised when end dep comment is missing.
:return:
"""
data = '''
* depends_on:MBEDTLS_ECP_C:A:B: C : D :F : G: !H
* END_DEPENDENCIES
*/
'''
expected = ['MBEDTLS_ECP_C', 'A', 'B', 'C', 'D', 'F', 'G', '!H']
s = StringIOWrapper('test_suite_ut.function', data)
deps = parse_suite_deps(s)
self.assertEqual(deps, expected)
class ParseFuncDeps(TestCase):
"""
Test Suite for testing parse_function_deps()
"""
def test_function_deps(self):
"""
Test that parse_function_deps() correctly parses function dependencies.
:return:
"""
line = '/* BEGIN_CASE depends_on:MBEDTLS_ENTROPY_NV_SEED:MBEDTLS_FS_IO */'
expected = ['MBEDTLS_ENTROPY_NV_SEED', 'MBEDTLS_FS_IO']
deps = parse_function_deps(line)
self.assertEqual(deps, expected)
def test_no_deps(self):
"""
Test that parse_function_deps() correctly parses function dependencies.
:return:
"""
line = '/* BEGIN_CASE */'
deps = parse_function_deps(line)
self.assertEqual(deps, [])
def test_poorly_defined_deps(self):
"""
Test that parse_function_deps() correctly parses function dependencies.
:return:
"""
line = '/* BEGIN_CASE depends_on:MBEDTLS_FS_IO: A : !B:C : F*/'
deps = parse_function_deps(line)
self.assertEqual(deps, ['MBEDTLS_FS_IO', 'A', '!B', 'C', 'F'])
class ParseFuncSignature(TestCase):
"""
Test Suite for parse_function_signature().
"""
def test_int_and_char_params(self):
"""
Test int and char parameters parsing
:return:
"""
line = 'void entropy_threshold( char * a, int b, int result )'
name, args, local, arg_dispatch = parse_function_signature(line)
self.assertEqual(name, 'entropy_threshold')
self.assertEqual(args, ['char*', 'int', 'int'])
self.assertEqual(local, '')
self.assertEqual(arg_dispatch, ['(char *) params[0]', '*( (int *) params[1] )', '*( (int *) params[2] )'])
def test_hex_params(self):
"""
Test hex parameters parsing
:return:
"""
line = 'void entropy_threshold( char * a, HexParam_t * h, int result )'
name, args, local, arg_dispatch = parse_function_signature(line)
self.assertEqual(name, 'entropy_threshold')
self.assertEqual(args, ['char*', 'hex', 'int'])
self.assertEqual(local, ' HexParam_t hex1 = {(uint8_t *) params[1], *( (uint32_t *) params[2] )};\n')
self.assertEqual(arg_dispatch, ['(char *) params[0]', '&hex1', '*( (int *) params[3] )'])
def test_non_void_function(self):
"""
Test invalid signature (non void).
:return:
"""
line = 'int entropy_threshold( char * a, HexParam_t * h, int result )'
self.assertRaises(ValueError, parse_function_signature, line)
def test_unsupported_arg(self):
"""
Test unsupported arguments (not among int, char * and HexParam_t)
:return:
"""
line = 'int entropy_threshold( char * a, HexParam_t * h, int * result )'
self.assertRaises(ValueError, parse_function_signature, line)
def test_no_params(self):
"""
Test no parameters.
:return:
"""
line = 'void entropy_threshold()'
name, args, local, arg_dispatch = parse_function_signature(line)
self.assertEqual(name, 'entropy_threshold')
self.assertEqual(args, [])
self.assertEqual(local, '')
self.assertEqual(arg_dispatch, [])
class ParseFunctionCode(TestCase):
"""
Test suite for testing parse_function_code()
"""
def test_no_function(self):
"""
Test no test function found.
:return:
"""
data = '''
No
test
function
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(InvalidFileFormat, parse_function_code, s, [], [])
def test_no_end_case_comment(self):
"""
Test missing end case.
:return:
"""
data = '''
void test_func()
{
}
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(InvalidFileFormat, parse_function_code, s, [], [])
@patch("generate_test_code.parse_function_signature")
def test_parse_function_signature_called(self, parse_function_signature_mock):
"""
Test parse_function_code()
:return:
"""
parse_function_signature_mock.return_value = ('test_func', [], '', [])
data = '''
void test_func()
{
}
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(InvalidFileFormat, parse_function_code, s, [], [])
self.assertTrue(parse_function_signature_mock.called)
parse_function_signature_mock.assert_called_with('void test_func()\n')
@patch("generate_test_code.gen_dispatch")
@patch("generate_test_code.gen_deps")
@patch("generate_test_code.gen_function_wrapper")
@patch("generate_test_code.parse_function_signature")
def test_return(self, parse_function_signature_mock,
gen_function_wrapper_mock,
gen_deps_mock,
gen_dispatch_mock):
"""
Test generated code.
:return:
"""
parse_function_signature_mock.return_value = ('func', [], '', [])
gen_function_wrapper_mock.return_value = ''
gen_deps_mock.side_effect = gen_deps
gen_dispatch_mock.side_effect = gen_dispatch
data = '''
void func()
{
ba ba black sheep
have you any wool
}
/* END_CASE */
'''
s = StringIOWrapper('test_suite_ut.function', data)
name, arg, code, dispatch_code = parse_function_code(s, [], [])
#self.assertRaises(InvalidFileFormat, parse_function_code, s, [], [])
self.assertTrue(parse_function_signature_mock.called)
parse_function_signature_mock.assert_called_with('void func()\n')
gen_function_wrapper_mock.assert_called_with('test_func', '', [])
self.assertEqual(name, 'test_func')
self.assertEqual(arg, [])
expected = '''#line 2 "test_suite_ut.function"
void test_func()
{
ba ba black sheep
have you any wool
exit:
;;
}
'''
self.assertEqual(code, expected)
self.assertEqual(dispatch_code, "\n test_func_wrapper,\n")
@patch("generate_test_code.gen_dispatch")
@patch("generate_test_code.gen_deps")
@patch("generate_test_code.gen_function_wrapper")
@patch("generate_test_code.parse_function_signature")
def test_with_exit_label(self, parse_function_signature_mock,
gen_function_wrapper_mock,
gen_deps_mock,
gen_dispatch_mock):
"""
Test when exit label is present.
:return:
"""
parse_function_signature_mock.return_value = ('func', [], '', [])
gen_function_wrapper_mock.return_value = ''
gen_deps_mock.side_effect = gen_deps
gen_dispatch_mock.side_effect = gen_dispatch
data = '''
void func()
{
ba ba black sheep
have you any wool
exit:
yes sir yes sir
3 bags full
}
/* END_CASE */
'''
s = StringIOWrapper('test_suite_ut.function', data)
name, arg, code, dispatch_code = parse_function_code(s, [], [])
expected = '''#line 2 "test_suite_ut.function"
void test_func()
{
ba ba black sheep
have you any wool
exit:
yes sir yes sir
3 bags full
}
'''
self.assertEqual(code, expected)
class ParseFunction(TestCase):
"""
Test Suite for testing parse_functions()
"""
@patch("generate_test_code.parse_until_pattern")
def test_begin_header(self, parse_until_pattern_mock):
"""
Test that begin header is checked and parse_until_pattern() is called.
:return:
"""
def stop(this):
raise Exception
parse_until_pattern_mock.side_effect = stop
data = '''/* BEGIN_HEADER */
#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
/* END_HEADER */
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(Exception, parse_functions, s)
parse_until_pattern_mock.assert_called_with(s, END_HEADER_REGEX)
self.assertEqual(s.line_no, 2)
@patch("generate_test_code.parse_until_pattern")
def test_begin_helper(self, parse_until_pattern_mock):
"""
Test that begin helper is checked and parse_until_pattern() is called.
:return:
"""
def stop(this):
raise Exception
parse_until_pattern_mock.side_effect = stop
data = '''/* BEGIN_SUITE_HELPERS */
void print_helloworld()
{
printf ("Hello World!\n");
}
/* END_SUITE_HELPERS */
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(Exception, parse_functions, s)
parse_until_pattern_mock.assert_called_with(s, END_SUITE_HELPERS_REGEX)
self.assertEqual(s.line_no, 2)
@patch("generate_test_code.parse_suite_deps")
def test_begin_dep(self, parse_suite_deps_mock):
"""
Test that begin dep is checked and parse_suite_deps() is called.
:return:
"""
def stop(this):
raise Exception
parse_suite_deps_mock.side_effect = stop
data = '''/* BEGIN_DEPENDENCIES
* depends_on:MBEDTLS_ECP_C
* END_DEPENDENCIES
*/
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(Exception, parse_functions, s)
parse_suite_deps_mock.assert_called_with(s)
self.assertEqual(s.line_no, 2)
@patch("generate_test_code.parse_function_deps")
def test_begin_function_dep(self, parse_function_deps_mock):
"""
Test that begin dep is checked and parse_function_deps() is called.
:return:
"""
def stop(this):
raise Exception
parse_function_deps_mock.side_effect = stop
deps_str = '/* BEGIN_CASE depends_on:MBEDTLS_ENTROPY_NV_SEED:MBEDTLS_FS_IO */\n'
data = '''%svoid test_func()
{
}
''' % deps_str
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(Exception, parse_functions, s)
parse_function_deps_mock.assert_called_with(deps_str)
self.assertEqual(s.line_no, 2)
@patch("generate_test_code.parse_function_code")
@patch("generate_test_code.parse_function_deps")
def test_return(self, parse_function_deps_mock, parse_function_code_mock):
"""
Test that begin case is checked and parse_function_code() is called.
:return:
"""
def stop(this):
raise Exception
parse_function_deps_mock.return_value = []
in_func_code= '''void test_func()
{
}
'''
func_dispatch = '''
test_func_wrapper,
'''
parse_function_code_mock.return_value = 'test_func', [], in_func_code, func_dispatch
deps_str = '/* BEGIN_CASE depends_on:MBEDTLS_ENTROPY_NV_SEED:MBEDTLS_FS_IO */\n'
data = '''%svoid test_func()
{
}
''' % deps_str
s = StringIOWrapper('test_suite_ut.function', data)
suite_deps, dispatch_code, func_code, func_info = parse_functions(s)
parse_function_deps_mock.assert_called_with(deps_str)
parse_function_code_mock.assert_called_with(s, [], [])
self.assertEqual(s.line_no, 5)
self.assertEqual(suite_deps, [])
expected_dispatch_code = '''/* Function Id: 0 */
test_func_wrapper,
'''
self.assertEqual(dispatch_code, expected_dispatch_code)
self.assertEqual(func_code, in_func_code)
self.assertEqual(func_info, {'test_func': (0, [])})
def test_parsing(self):
"""
Test case parsing.
:return:
"""
data = '''/* BEGIN_HEADER */
#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
/* END_HEADER */
/* BEGIN_DEPENDENCIES
* depends_on:MBEDTLS_ECP_C
* END_DEPENDENCIES
*/
/* BEGIN_CASE depends_on:MBEDTLS_ENTROPY_NV_SEED:MBEDTLS_FS_IO */
void func1()
{
}
/* END_CASE */
/* BEGIN_CASE depends_on:MBEDTLS_ENTROPY_NV_SEED:MBEDTLS_FS_IO */
void func2()
{
}
/* END_CASE */
'''
s = StringIOWrapper('test_suite_ut.function', data)
suite_deps, dispatch_code, func_code, func_info = parse_functions(s)
self.assertEqual(s.line_no, 23)
self.assertEqual(suite_deps, ['MBEDTLS_ECP_C'])
expected_dispatch_code = '''/* Function Id: 0 */
#if defined(MBEDTLS_ECP_C) && defined(MBEDTLS_ENTROPY_NV_SEED) && defined(MBEDTLS_FS_IO)
test_func1_wrapper,
#else
NULL,
#endif
/* Function Id: 1 */
#if defined(MBEDTLS_ECP_C) && defined(MBEDTLS_ENTROPY_NV_SEED) && defined(MBEDTLS_FS_IO)
test_func2_wrapper,
#else
NULL,
#endif
'''
self.assertEqual(dispatch_code, expected_dispatch_code)
expected_func_code = '''#if defined(MBEDTLS_ECP_C)
#line 3 "test_suite_ut.function"
#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
#if defined(MBEDTLS_ENTROPY_NV_SEED)
#if defined(MBEDTLS_FS_IO)
#line 14 "test_suite_ut.function"
void test_func1()
{
exit:
;;
}
void test_func1_wrapper( void ** params )
{
(void)params;
test_func1( );
}
#endif /* MBEDTLS_FS_IO */
#endif /* MBEDTLS_ENTROPY_NV_SEED */
#if defined(MBEDTLS_ENTROPY_NV_SEED)
#if defined(MBEDTLS_FS_IO)
#line 20 "test_suite_ut.function"
void test_func2()
{
exit:
;;
}
void test_func2_wrapper( void ** params )
{
(void)params;
test_func2( );
}
#endif /* MBEDTLS_FS_IO */
#endif /* MBEDTLS_ENTROPY_NV_SEED */
#endif /* MBEDTLS_ECP_C */
'''
self.assertEqual(func_code, expected_func_code)
self.assertEqual(func_info, {'test_func1': (0, []), 'test_func2': (1, [])})
def test_same_function_name(self):
"""
Test name conflict.
:return:
"""
data = '''/* BEGIN_HEADER */
#include "mbedtls/ecp.h"
#define ECP_PF_UNKNOWN -1
/* END_HEADER */
/* BEGIN_DEPENDENCIES
* depends_on:MBEDTLS_ECP_C
* END_DEPENDENCIES
*/
/* BEGIN_CASE depends_on:MBEDTLS_ENTROPY_NV_SEED:MBEDTLS_FS_IO */
void func()
{
}
/* END_CASE */
/* BEGIN_CASE depends_on:MBEDTLS_ENTROPY_NV_SEED:MBEDTLS_FS_IO */
void func()
{
}
/* END_CASE */
'''
s = StringIOWrapper('test_suite_ut.function', data)
self.assertRaises(AssertionError, parse_functions, s)
class ExcapedSplit(TestCase):
"""
Test suite for testing escaped_split().
Note: Since escaped_split() output is used to write back to the intermediate data file. Any escape characters
in the input are retained in the output.
"""
def test_invalid_input(self):
"""
Test when input split character is not a character.
:return:
"""
self.assertRaises(ValueError, escaped_split, '', 'string')
def test_empty_string(self):
"""
Test empty strig input.
:return:
"""
splits = escaped_split('', ':')
self.assertEqual(splits, [])
def test_no_escape(self):
"""
Test with no escape character. The behaviour should be same as str.split()
:return:
"""
s = 'yahoo:google'
splits = escaped_split(s, ':')
self.assertEqual(splits, s.split(':'))
def test_escaped_input(self):
"""
Test imput that has escaped delimiter.
:return:
"""
s = 'yahoo\:google:facebook'
splits = escaped_split(s, ':')
self.assertEqual(splits, ['yahoo\:google', 'facebook'])
def test_escaped_escape(self):
"""
Test imput that has escaped delimiter.
:return:
"""
s = 'yahoo\\\:google:facebook'
splits = escaped_split(s, ':')
self.assertEqual(splits, ['yahoo\\\\', 'google', 'facebook'])
def test_all_at_once(self):
"""
Test imput that has escaped delimiter.
:return:
"""
s = 'yahoo\\\:google:facebook\:instagram\\\:bbc\\\\:wikipedia'
splits = escaped_split(s, ':')
self.assertEqual(splits, ['yahoo\\\\', 'google', 'facebook\:instagram\\\\', 'bbc\\\\', 'wikipedia'])
class ParseTestData(TestCase):
"""
Test suite for parse test data.
"""
def test_parser(self):
"""
Test that tests are parsed correctly from data file.
:return:
"""
data = """
Diffie-Hellman full exchange #1
dhm_do_dhm:10:"23":10:"5"
Diffie-Hellman full exchange #2
dhm_do_dhm:10:"93450983094850938450983409623":10:"9345098304850938450983409622"
Diffie-Hellman full exchange #3
dhm_do_dhm:10:"9345098382739712938719287391879381271":10:"9345098792137312973297123912791271"
Diffie-Hellman selftest
dhm_selftest:
"""
s = StringIOWrapper('test_suite_ut.function', data)
tests = [(name, function, deps, args) for name, function, deps, args in parse_test_data(s)]
t1, t2, t3, t4 = tests
self.assertEqual(t1[0], 'Diffie-Hellman full exchange #1')
self.assertEqual(t1[1], 'dhm_do_dhm')
self.assertEqual(t1[2], [])
self.assertEqual(t1[3], ['10', '"23"', '10', '"5"'])
self.assertEqual(t2[0], 'Diffie-Hellman full exchange #2')
self.assertEqual(t2[1], 'dhm_do_dhm')
self.assertEqual(t2[2], [])
self.assertEqual(t2[3], ['10', '"93450983094850938450983409623"', '10', '"9345098304850938450983409622"'])
self.assertEqual(t3[0], 'Diffie-Hellman full exchange #3')
self.assertEqual(t3[1], 'dhm_do_dhm')
self.assertEqual(t3[2], [])
self.assertEqual(t3[3], ['10', '"9345098382739712938719287391879381271"', '10', '"9345098792137312973297123912791271"'])
self.assertEqual(t4[0], 'Diffie-Hellman selftest')
self.assertEqual(t4[1], 'dhm_selftest')
self.assertEqual(t4[2], [])
self.assertEqual(t4[3], [])
def test_with_dependencies(self):
"""
Test that tests with dependencies are parsed.
:return:
"""
data = """
Diffie-Hellman full exchange #1
depends_on:YAHOO
dhm_do_dhm:10:"23":10:"5"
Diffie-Hellman full exchange #2
dhm_do_dhm:10:"93450983094850938450983409623":10:"9345098304850938450983409622"
"""
s = StringIOWrapper('test_suite_ut.function', data)
tests = [(name, function, deps, args) for name, function, deps, args in parse_test_data(s)]
t1, t2 = tests
self.assertEqual(t1[0], 'Diffie-Hellman full exchange #1')
self.assertEqual(t1[1], 'dhm_do_dhm')
self.assertEqual(t1[2], ['YAHOO'])
self.assertEqual(t1[3], ['10', '"23"', '10', '"5"'])
self.assertEqual(t2[0], 'Diffie-Hellman full exchange #2')
self.assertEqual(t2[1], 'dhm_do_dhm')
self.assertEqual(t2[2], [])
self.assertEqual(t2[3], ['10', '"93450983094850938450983409623"', '10', '"9345098304850938450983409622"'])
def test_no_args(self):
"""
Test AssertionError is raised when test function name and args line is missing.
:return:
"""
data = """
Diffie-Hellman full exchange #1
depends_on:YAHOO
Diffie-Hellman full exchange #2
dhm_do_dhm:10:"93450983094850938450983409623":10:"9345098304850938450983409622"
"""
s = StringIOWrapper('test_suite_ut.function', data)
e = None
try:
for x, y, z, a in parse_test_data(s):
pass
except AssertionError, e:
pass
self.assertEqual(type(e), AssertionError)
def test_incomplete_data(self):
"""
Test AssertionError is raised when test function name and args line is missing.
:return:
"""
data = """
Diffie-Hellman full exchange #1
depends_on:YAHOO
"""
s = StringIOWrapper('test_suite_ut.function', data)
e = None
try:
for x, y, z, a in parse_test_data(s):
pass
except AssertionError, e:
pass
self.assertEqual(type(e), AssertionError)
class GenDepCheck(TestCase):
"""
Test suite for gen_dep_check(). It is assumed this function is called with valid inputs.
"""
def test_gen_dep_check(self):
"""
Test that dependency check code generated correctly.
:return:
"""
expected = """
case 5:
{
#if defined(YAHOO)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;"""
out = gen_dep_check(5, 'YAHOO')
self.assertEqual(out, expected)
def test_noT(self):
"""
Test dependency with !.
:return:
"""
expected = """
case 5:
{
#if !defined(YAHOO)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;"""
out = gen_dep_check(5, '!YAHOO')
self.assertEqual(out, expected)
def test_empty_dependency(self):
"""
Test invalid dependency input.
:return:
"""
self.assertRaises(AssertionError, gen_dep_check, 5, '!')
def test_negative_dep_id(self):
"""
Test invalid dependency input.
:return:
"""
self.assertRaises(AssertionError, gen_dep_check, -1, 'YAHOO')
class GenExpCheck(TestCase):
"""
Test suite for gen_expression_check(). It is assumed this function is called with valid inputs.
"""
def test_gen_exp_check(self):
"""
Test that expression check code generated correctly.
:return:
"""
expected = """
case 5:
{
*out_value = YAHOO;
}
break;"""
out = gen_expression_check(5, 'YAHOO')
self.assertEqual(out, expected)
def test_invalid_expression(self):
"""
Test invalid expression input.
:return:
"""
self.assertRaises(AssertionError, gen_expression_check, 5, '')
def test_negative_exp_id(self):
"""
Test invalid expression id.
:return:
"""
self.assertRaises(AssertionError, gen_expression_check, -1, 'YAHOO')
class WriteDeps(TestCase):
"""
Test suite for testing write_deps.
"""
def test_no_test_deps(self):
"""
Test when test_deps is empty.
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_deps = []
dep_check_code = write_deps(s, [], unique_deps)
self.assertEqual(dep_check_code, '')
self.assertEqual(len(unique_deps), 0)
self.assertEqual(s.getvalue(), '')
def test_unique_dep_ids(self):
"""
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_deps = []
dep_check_code = write_deps(s, ['DEP3', 'DEP2', 'DEP1'], unique_deps)
expect_dep_check_code = '''
case 0:
{
#if defined(DEP3)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;
case 1:
{
#if defined(DEP2)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;
case 2:
{
#if defined(DEP1)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;'''
self.assertEqual(dep_check_code, expect_dep_check_code)
self.assertEqual(len(unique_deps), 3)
self.assertEqual(s.getvalue(), 'depends_on:0:1:2\n')
def test_dep_id_repeat(self):
"""
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_deps = []
dep_check_code = ''
dep_check_code += write_deps(s, ['DEP3', 'DEP2'], unique_deps)
dep_check_code += write_deps(s, ['DEP2', 'DEP1'], unique_deps)
dep_check_code += write_deps(s, ['DEP1', 'DEP3'], unique_deps)
expect_dep_check_code = '''
case 0:
{
#if defined(DEP3)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;
case 1:
{
#if defined(DEP2)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;
case 2:
{
#if defined(DEP1)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;'''
self.assertEqual(dep_check_code, expect_dep_check_code)
self.assertEqual(len(unique_deps), 3)
self.assertEqual(s.getvalue(), 'depends_on:0:1\ndepends_on:1:2\ndepends_on:2:0\n')
class WriteParams(TestCase):
"""
Test Suite for testing write_parameters().
"""
def test_no_params(self):
"""
Test with empty test_args
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_expressions = []
expression_code = write_parameters(s, [], [], unique_expressions)
self.assertEqual(len(unique_expressions), 0)
self.assertEqual(expression_code, '')
self.assertEqual(s.getvalue(), '\n')
def test_no_exp_param(self):
"""
Test when there is no macro or expression in the params.
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_expressions = []
expression_code = write_parameters(s, ['"Yahoo"', '"abcdef00"', '0'], ['char*', 'hex', 'int'],
unique_expressions)
self.assertEqual(len(unique_expressions), 0)
self.assertEqual(expression_code, '')
self.assertEqual(s.getvalue(), ':char*:"Yahoo":hex:"abcdef00":int:0\n')
def test_hex_format_int_param(self):
"""
Test int parameter in hex format.
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_expressions = []
expression_code = write_parameters(s, ['"Yahoo"', '"abcdef00"', '0xAA'], ['char*', 'hex', 'int'],
unique_expressions)
self.assertEqual(len(unique_expressions), 0)
self.assertEqual(expression_code, '')
self.assertEqual(s.getvalue(), ':char*:"Yahoo":hex:"abcdef00":int:0xAA\n')
def test_with_exp_param(self):
"""
Test when there is macro or expression in the params.
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_expressions = []
expression_code = write_parameters(s, ['"Yahoo"', '"abcdef00"', '0', 'MACRO1', 'MACRO2', 'MACRO3'],
['char*', 'hex', 'int', 'int', 'int', 'int'],
unique_expressions)
self.assertEqual(len(unique_expressions), 3)
self.assertEqual(unique_expressions, ['MACRO1', 'MACRO2', 'MACRO3'])
expected_expression_code = '''
case 0:
{
*out_value = MACRO1;
}
break;
case 1:
{
*out_value = MACRO2;
}
break;
case 2:
{
*out_value = MACRO3;
}
break;'''
self.assertEqual(expression_code, expected_expression_code)
self.assertEqual(s.getvalue(), ':char*:"Yahoo":hex:"abcdef00":int:0:exp:0:exp:1:exp:2\n')
def test_with_repeate_calls(self):
"""
Test when write_parameter() is called with same macro or expression.
:return:
"""
s = StringIOWrapper('test_suite_ut.data', '')
unique_expressions = []
expression_code = ''
expression_code += write_parameters(s, ['"Yahoo"', 'MACRO1', 'MACRO2'], ['char*', 'int', 'int'],
unique_expressions)
expression_code += write_parameters(s, ['"abcdef00"', 'MACRO2', 'MACRO3'], ['hex', 'int', 'int'],
unique_expressions)
expression_code += write_parameters(s, ['0', 'MACRO3', 'MACRO1'], ['int', 'int', 'int'],
unique_expressions)
self.assertEqual(len(unique_expressions), 3)
self.assertEqual(unique_expressions, ['MACRO1', 'MACRO2', 'MACRO3'])
expected_expression_code = '''
case 0:
{
*out_value = MACRO1;
}
break;
case 1:
{
*out_value = MACRO2;
}
break;
case 2:
{
*out_value = MACRO3;
}
break;'''
self.assertEqual(expression_code, expected_expression_code)
expected_data_file = ''':char*:"Yahoo":exp:0:exp:1
:hex:"abcdef00":exp:1:exp:2
:int:0:exp:2:exp:0
'''
self.assertEqual(s.getvalue(), expected_data_file)
class GenTestSuiteDepsChecks(TestCase):
"""
"""
def test_empty_suite_deps(self):
"""
Test with empty suite_deps list.
:return:
"""
dep_check_code, expression_code = gen_suite_deps_checks([], 'DEP_CHECK_CODE', 'EXPRESSION_CODE')
self.assertEqual(dep_check_code, 'DEP_CHECK_CODE')
self.assertEqual(expression_code, 'EXPRESSION_CODE')
def test_suite_deps(self):
"""
Test with suite_deps list.
:return:
"""
dep_check_code, expression_code = gen_suite_deps_checks(['SUITE_DEP'], 'DEP_CHECK_CODE', 'EXPRESSION_CODE')
exprectd_dep_check_code = '''
#if defined(SUITE_DEP)
DEP_CHECK_CODE
#endif
'''
expected_expression_code = '''
#if defined(SUITE_DEP)
EXPRESSION_CODE
#endif
'''
self.assertEqual(dep_check_code, exprectd_dep_check_code)
self.assertEqual(expression_code, expected_expression_code)
def test_no_dep_no_exp(self):
"""
Test when there are no dependency and expression code.
:return:
"""
dep_check_code, expression_code = gen_suite_deps_checks([], '', '')
self.assertEqual(dep_check_code, '')
self.assertEqual(expression_code, '')
class GenFromTestData(TestCase):
"""
Test suite for gen_from_test_data()
"""
@patch("generate_test_code.write_deps")
@patch("generate_test_code.write_parameters")
@patch("generate_test_code.gen_suite_deps_checks")
def test_intermediate_data_file(self, gen_suite_deps_checks_mock, write_parameters_mock, write_deps_mock):
"""
Test that intermediate data file is written with expected data.
:return:
"""
data = '''
My test
depends_on:DEP1
func1:0
'''
data_f = StringIOWrapper('test_suite_ut.data', data)
out_data_f = StringIOWrapper('test_suite_ut.datax', '')
func_info = {'test_func1': (1, ('int',))}
suite_deps = []
write_parameters_mock.side_effect = write_parameters
write_deps_mock.side_effect = write_deps
gen_suite_deps_checks_mock.side_effect = gen_suite_deps_checks
gen_from_test_data(data_f, out_data_f, func_info, suite_deps)
write_deps_mock.assert_called_with(out_data_f, ['DEP1'], ['DEP1'])
write_parameters_mock.assert_called_with(out_data_f, ['0'], ('int',), [])
expected_dep_check_code = '''
case 0:
{
#if defined(DEP1)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;'''
gen_suite_deps_checks_mock.assert_called_with(suite_deps, expected_dep_check_code, '')
def test_function_not_found(self):
"""
Test that AssertError is raised when function info in not found.
:return:
"""
data = '''
My test
depends_on:DEP1
func1:0
'''
data_f = StringIOWrapper('test_suite_ut.data', data)
out_data_f = StringIOWrapper('test_suite_ut.datax', '')
func_info = {'test_func2': (1, ('int',))}
suite_deps = []
self.assertRaises(AssertionError, gen_from_test_data, data_f, out_data_f, func_info, suite_deps)
def test_different_func_args(self):
"""
Test that AssertError is raised when no. of parameters and function args differ.
:return:
"""
data = '''
My test
depends_on:DEP1
func1:0
'''
data_f = StringIOWrapper('test_suite_ut.data', data)
out_data_f = StringIOWrapper('test_suite_ut.datax', '')
func_info = {'test_func2': (1, ('int','hex'))}
suite_deps = []
self.assertRaises(AssertionError, gen_from_test_data, data_f, out_data_f, func_info, suite_deps)
def test_output(self):
"""
Test that intermediate data file is written with expected data.
:return:
"""
data = '''
My test 1
depends_on:DEP1
func1:0:0xfa:MACRO1:MACRO2
My test 2
depends_on:DEP1:DEP2
func2:"yahoo":88:MACRO1
'''
data_f = StringIOWrapper('test_suite_ut.data', data)
out_data_f = StringIOWrapper('test_suite_ut.datax', '')
func_info = {'test_func1': (0, ('int', 'int', 'int', 'int')), 'test_func2': (1, ('char*', 'int', 'int'))}
suite_deps = []
dep_check_code, expression_code = gen_from_test_data(data_f, out_data_f, func_info, suite_deps)
expected_dep_check_code = '''
case 0:
{
#if defined(DEP1)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;
case 1:
{
#if defined(DEP2)
ret = DEPENDENCY_SUPPORTED;
#else
ret = DEPENDENCY_NOT_SUPPORTED;
#endif
}
break;'''
expecrted_data = '''My test 1
depends_on:0
0:int:0:int:0xfa:exp:0:exp:1
My test 2
depends_on:0:1
1:char*:"yahoo":int:88:exp:0
'''
expected_expression_code = '''
case 0:
{
*out_value = MACRO1;
}
break;
case 1:
{
*out_value = MACRO2;
}
break;'''
self.assertEqual(dep_check_code, expected_dep_check_code)
self.assertEqual(out_data_f.getvalue(), expecrted_data)
self.assertEqual(expression_code, expected_expression_code)
if __name__=='__main__':
unittest_main()