ladybird/Tests/LibC/TestScanf.cpp
Ben Wiederhake 6b7ce19161 Everywhere: Remove unused includes of LibC/stdlib.h
These instances were detected by searching for files that include
stdlib.h, but don't match the regex:

\\b(_abort|abort|abs|aligned_alloc|arc4random|arc4random_buf|arc4random_
uniform|atexit|atof|atoi|atol|atoll|bsearch|calloc|clearenv|div|div_t|ex
it|_Exit|EXIT_FAILURE|EXIT_SUCCESS|free|getenv|getprogname|grantpt|labs|
ldiv|ldiv_t|llabs|lldiv|lldiv_t|malloc|malloc_good_size|malloc_size|mble
n|mbstowcs|mbtowc|mkdtemp|mkstemp|mkstemps|mktemp|posix_memalign|posix_o
penpt|ptsname|ptsname_r|putenv|qsort|qsort_r|rand|RAND_MAX|random|reallo
c|realpath|secure_getenv|serenity_dump_malloc_stats|serenity_setenv|sete
nv|setprogname|srand|srandom|strtod|strtof|strtol|strtold|strtoll|strtou
l|strtoull|system|unlockpt|unsetenv|wcstombs|wctomb)\\b

(Without the linebreaks.)

This regex is pessimistic, so there might be more files that don't
actually use anything from the stdlib.

In theory, one might use LibCPP to detect things like this
automatically, but let's do this one step after another.
2023-01-02 20:27:20 -05:00

253 lines
8.1 KiB
C++

/*
* Copyright (c) 2021, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibTest/TestCase.h>
#include <AK/Array.h>
#include <stdio.h>
#include <string.h>
typedef long double longdouble;
typedef long long longlong;
typedef unsigned long long unsignedlonglong;
typedef unsigned long unsignedlong;
typedef char charstar[32];
template<typename T>
constexpr static Array<unsigned char, 32> to_value_t(T x)
{
// The endianness doesn't really matter, since we're going to convert both sides with this anyway.
union Value {
u8 v[32];
T t;
};
auto value = Value { .t = x };
return {
value.v[0],
value.v[1],
value.v[2],
value.v[3],
value.v[4],
value.v[5],
value.v[6],
value.v[7],
value.v[8],
value.v[9],
value.v[10],
value.v[11],
value.v[12],
value.v[13],
value.v[14],
value.v[15],
value.v[16],
value.v[17],
value.v[18],
value.v[19],
value.v[20],
value.v[21],
value.v[22],
value.v[23],
value.v[24],
value.v[25],
value.v[26],
value.v[27],
value.v[28],
value.v[29],
value.v[30],
value.v[31],
};
}
template<size_t N>
constexpr static Array<unsigned char, 32> str_to_value_t(char const (&x)[N])
{
Array<unsigned char, 32> value { 0 };
for (size_t i = 0; i < N; ++i)
value[i] = x[i];
return value;
}
struct Argument {
size_t size;
void* data;
};
static Array<u8, 32> arg_to_value_t(Argument const& arg)
{
if (arg.size == 1)
return to_value_t(*(u8*)arg.data);
if (arg.size == 2)
return to_value_t(*(u16*)arg.data);
if (arg.size == 4)
return to_value_t(*(u32*)arg.data);
if (arg.size == 8)
return to_value_t(*(u64*)arg.data);
if (arg.size == 16) {
auto& data = *(charstar*)arg.data;
Array<unsigned char, 32> value { 0 };
for (size_t i = 0; i < 16; ++i)
value[i] = data[i];
return value;
}
if (arg.size == 32) {
auto& data = *(charstar*)arg.data;
auto length = strlen(data);
Array<unsigned char, 32> value { 0 };
for (size_t i = 0; i < length; ++i)
value[i] = data[i];
return value;
}
VERIFY_NOT_REACHED();
}
#define DECL_WITH_TYPE(ty) \
ty _##ty##arg0; \
ty _##ty##arg1; \
ty _##ty##arg2; \
Argument ty##arg0 { sizeof(ty), &_##ty##arg0 }; \
Argument ty##arg1 { sizeof(ty), &_##ty##arg1 }; \
Argument ty##arg2 { sizeof(ty), &_##ty##arg2 };
DECL_WITH_TYPE(int);
DECL_WITH_TYPE(unsigned);
DECL_WITH_TYPE(long);
DECL_WITH_TYPE(longlong);
DECL_WITH_TYPE(float);
DECL_WITH_TYPE(double);
DECL_WITH_TYPE(longdouble);
DECL_WITH_TYPE(unsignedlong);
DECL_WITH_TYPE(unsignedlonglong);
#undef DECL_WITH_TYPE
charstar _charstararg0;
charstar _charstararg1;
charstar _charstararg2;
Argument charstararg0 { sizeof(charstar), &_charstararg0[0] };
Argument charstararg1 { sizeof(charstar), &_charstararg1[0] };
Argument charstararg2 { sizeof(charstar), &_charstararg2[0] };
struct TestSuite {
char const* format;
char const* input;
int expected_return_value;
size_t argument_count;
Argument arguments[8];
Array<unsigned char, 32> expected_values[8]; // 32 bytes for each argument's value.
};
const TestSuite test_suites[] {
{ "%d", "", 0, 0, {}, {} },
{ "%x", "0x519", 1, 1, { unsignedarg0 }, { to_value_t(0x519) } },
{ "%x", "0x51g", 1, 1, { unsignedarg0 }, { to_value_t(0x51u) } },
{ "%06x", "0xabcdef", 1, 1, { unsignedarg0 }, { to_value_t(0xabcdefu) } },
{ "%X", "0xCAFEBABE", 1, 1, { unsignedarg0 }, { to_value_t(0xcafebabe) } },
{ "%04X", "0x5E4E", 1, 1, { unsignedarg0 }, { to_value_t(0x5e4e) } },
{ "%X", "0x51Eg", 1, 1, { unsignedarg0 }, { to_value_t(0x51e) } },
{ "\"%%%d#", "\"%42#", 1, 1, { intarg0 }, { to_value_t(42) } },
{ " %d", "42", 1, 1, { intarg0 }, { to_value_t(42) } },
{ "%d", " 42", 1, 1, { intarg0 }, { to_value_t(42) } },
{ "%ld", "42", 1, 1, { longarg0 }, { to_value_t(42l) } },
{ "%lld", "42", 1, 1, { longlongarg0 }, { to_value_t(42ll) } },
{ "%f", "42", 1, 1, { floatarg0 }, { to_value_t(42.0f) } },
{ "%lf", "42", 1, 1, { doublearg0 }, { to_value_t(42.0) } },
{ "%s", "42", 1, 1, { charstararg0 }, { str_to_value_t("42") } },
{ "%d%s", "42yoinks", 2, 2, { intarg0, charstararg0 }, { to_value_t(42), str_to_value_t("yoinks") } },
{ "%[^\n]", "aaaa\n", 1, 1, { charstararg0 }, { str_to_value_t("aaaa") } },
{ "%u.%u.%u", "3.19", 2, 3, { unsignedarg0, unsignedarg1, unsignedarg2 }, { to_value_t(3u), to_value_t(19u) } },
// Failing test case from previous impl:
{ "SSH-%d.%d-%[^\n]\n", "SSH-2.0-OpenSSH_8.2p1 Ubuntu-4ubuntu0.1\n", 3, 3, { intarg0, intarg1, charstararg0 }, { to_value_t(2), to_value_t(0), str_to_value_t("OpenSSH_8.2p1 Ubuntu-4ubuntu0.1") } },
// GCC failure tests
{ "%d.%d.%d", "10.2.0", 3, 3, { intarg0, intarg1, intarg2 }, { to_value_t(10), to_value_t(2), to_value_t(0) } },
{ "%lu", "3054 ", 1, 1, { unsignedlongarg0 }, { to_value_t(3054ul) } },
// "actual" long long and unsigned long long, from #6096
// Note: '9223372036854775806' is the max value for 'long long'.
{ "%lld", "9223372036854775805", 1, 1, { longlongarg0 }, { to_value_t(9223372036854775805LL) } },
{ "%llu", "9223372036854775810", 1, 1, { unsignedlonglongarg0 }, { to_value_t(9223372036854775810ULL) } },
{ "%n", "", 0, 1, { intarg0 }, { to_value_t(0) } },
{ "%d %n", "1 a", 1, 2, { intarg0, intarg1 }, { to_value_t(1), to_value_t(2) } },
{ "%*d", " 42", 0, 0, {}, {} },
{ "%d%*1[:/]%d", "24/7", 2, 2, { intarg0, intarg1 }, { to_value_t(24), to_value_t(7) } },
{ " %[^a]", " b", 1, 1, { charstararg0 }, { str_to_value_t("b") } },
};
bool g_any_failed = false;
static bool check_value_conformance(TestSuite const& test)
{
bool fail = false;
for (size_t i = 0; i < test.argument_count; ++i) {
auto& arg = test.arguments[i];
auto arg_value = arg_to_value_t(arg);
auto& value = test.expected_values[i];
if (arg_value != value) {
auto arg_ptr = (u32 const*)arg_value.data();
auto value_ptr = (u32 const*)value.data();
printf(" value %zu FAIL,\n", i);
printf(" expected %08x%08x%08x%08x%08x%08x%08x%08x\n",
value_ptr[0], value_ptr[1], value_ptr[2], value_ptr[3],
value_ptr[4], value_ptr[5], value_ptr[6], value_ptr[7]);
printf(" but got %08x%08x%08x%08x%08x%08x%08x%08x\n",
arg_ptr[0], arg_ptr[1], arg_ptr[2], arg_ptr[3],
arg_ptr[4], arg_ptr[5], arg_ptr[6], arg_ptr[7]);
fail = true;
} else {
printf(" value %zu PASS\n", i);
}
}
return !fail;
}
static void do_one_test(TestSuite const& test)
{
printf("Testing '%s' against '%s'...\n", test.input, test.format);
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wformat-nonliteral"
auto rc = sscanf(test.input, test.format,
test.arguments[0].data, test.arguments[1].data, test.arguments[2].data, test.arguments[3].data,
test.arguments[4].data, test.arguments[5].data, test.arguments[6].data, test.arguments[7].data);
#pragma GCC diagnostic pop
bool overall = true;
printf(" return value...\n");
if (rc != test.expected_return_value) {
printf(" return value FAIL, expected %d but got %d\n", test.expected_return_value, rc);
overall = false;
} else {
printf(" return value PASS\n");
}
printf(" read values...\n");
if (check_value_conformance(test)) {
printf(" read values PASS\n");
} else {
printf(" read values FAIL\n");
overall = false;
}
if (overall)
printf(" overall PASS\n");
else
printf(" overall FAIL\n");
VERIFY(overall);
}
TEST_CASE(scanf)
{
for (auto& test : test_suites)
do_one_test(test);
}