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serenity/AK/CheckedFormatString.h
Ben Wiederhake c2a900b853 Everywhere: Remove unused includes of AK/StdLibExtras.h 
These instances were detected by searching for files that include
AK/StdLibExtras.h, but don't match the regex:

\\b(abs|AK_REPLACED_STD_NAMESPACE|array_size|ceil_div|clamp|exchange|for
ward|is_constant_evaluated|is_power_of_two|max|min|mix|move|_RawPtr|RawP
tr|round_up_to_power_of_two|swap|to_underlying)\\b

(Without the linebreaks.)

This regex is pessimistic, so there might be more files that don't
actually use any "extra stdlib" functions.

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

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8.1 KiB
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/*
* Copyright (c) 2021, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/AllOf.h>
#include <AK/AnyOf.h>
#include <AK/Array.h>
#include <AK/StringView.h>
#ifdef ENABLE_COMPILETIME_FORMAT_CHECK
// FIXME: Seems like clang doesn't like calling 'consteval' functions inside 'consteval' functions quite the same way as GCC does,
// it seems to entirely forget that it accepted that parameters to a 'consteval' function to begin with.
# if defined(AK_COMPILER_CLANG) || defined(__CLION_IDE__) || defined(__CLION_IDE_)
# undef ENABLE_COMPILETIME_FORMAT_CHECK
# endif
#endif
#ifdef ENABLE_COMPILETIME_FORMAT_CHECK
namespace AK::Format::Detail {
// We have to define a local "purely constexpr" Array that doesn't lead back to us (via e.g. VERIFY)
template<typename T, size_t Size>
struct Array {
constexpr static size_t size() { return Size; }
constexpr T const& operator[](size_t index) const { return __data[index]; }
constexpr T& operator[](size_t index) { return __data[index]; }
using ConstIterator = SimpleIterator<const Array, T const>;
using Iterator = SimpleIterator<Array, T>;
constexpr ConstIterator begin() const { return ConstIterator::begin(*this); }
constexpr Iterator begin() { return Iterator::begin(*this); }
constexpr ConstIterator end() const { return ConstIterator::end(*this); }
constexpr Iterator end() { return Iterator::end(*this); }
T __data[Size];
};
template<typename... Args>
void compiletime_fail(Args...);
template<size_t N>
consteval auto extract_used_argument_index(char const (&fmt)[N], size_t specifier_start_index, size_t specifier_end_index, size_t& next_implicit_argument_index)
{
struct {
size_t index_value { 0 };
bool saw_explicit_index { false };
} state;
for (size_t i = specifier_start_index; i < specifier_end_index; ++i) {
auto c = fmt[i];
if (c > '9' || c < '0')
break;
state.index_value *= 10;
state.index_value += c - '0';
state.saw_explicit_index = true;
}
if (!state.saw_explicit_index)
return next_implicit_argument_index++;
return state.index_value;
}
// FIXME: We should rather parse these format strings at compile-time if possible.
template<size_t N>
consteval auto count_fmt_params(char const (&fmt)[N])
{
struct {
// FIXME: Switch to variable-sized storage whenever we can come up with one :)
Array<size_t, 128> used_arguments { 0 };
size_t total_used_argument_count { 0 };
size_t next_implicit_argument_index { 0 };
bool has_explicit_argument_references { false };
size_t unclosed_braces { 0 };
size_t extra_closed_braces { 0 };
size_t nesting_level { 0 };
Array<size_t, 4> last_format_specifier_start { 0 };
size_t total_used_last_format_specifier_start_count { 0 };
} result;
for (size_t i = 0; i < N; ++i) {
auto ch = fmt[i];
switch (ch) {
case '{':
if (i + 1 < N && fmt[i + 1] == '{') {
++i;
continue;
}
// Note: There's no compile-time throw, so we have to abuse a compile-time string to store errors.
if (result.total_used_last_format_specifier_start_count >= result.last_format_specifier_start.size() - 1)
compiletime_fail("Format-String Checker internal error: Format specifier nested too deep");
result.last_format_specifier_start[result.total_used_last_format_specifier_start_count++] = i + 1;
++result.unclosed_braces;
++result.nesting_level;
break;
case '}':
if (result.nesting_level == 0) {
if (i + 1 < N && fmt[i + 1] == '}') {
++i;
continue;
}
}
if (result.unclosed_braces) {
--result.nesting_level;
--result.unclosed_braces;
if (result.total_used_last_format_specifier_start_count == 0)
compiletime_fail("Format-String Checker internal error: Expected location information");
auto const specifier_start_index = result.last_format_specifier_start[--result.total_used_last_format_specifier_start_count];
if (result.total_used_argument_count >= result.used_arguments.size())
compiletime_fail("Format-String Checker internal error: Too many format arguments in format string");
auto used_argument_index = extract_used_argument_index<N>(fmt, specifier_start_index, i, result.next_implicit_argument_index);
if (used_argument_index + 1 != result.next_implicit_argument_index)
result.has_explicit_argument_references = true;
result.used_arguments[result.total_used_argument_count++] = used_argument_index;
} else {
++result.extra_closed_braces;
}
break;
default:
continue;
}
}
return result;
}
}
#endif
namespace AK::Format::Detail {
template<typename... Args>
struct CheckedFormatString {
template<size_t N>
consteval CheckedFormatString(char const (&fmt)[N])
: m_string { fmt, N - 1 }
{
#ifdef ENABLE_COMPILETIME_FORMAT_CHECK
check_format_parameter_consistency<N, sizeof...(Args)>(fmt);
#endif
}
template<typename T>
CheckedFormatString(T const& unchecked_fmt)
requires(requires(T t) { StringView { t }; })
: m_string(unchecked_fmt)
{
}
auto view() const { return m_string; }
private:
#ifdef ENABLE_COMPILETIME_FORMAT_CHECK
template<size_t N, size_t param_count>
consteval static bool check_format_parameter_consistency(char const (&fmt)[N])
{
auto check = count_fmt_params<N>(fmt);
if (check.unclosed_braces != 0)
compiletime_fail("Extra unclosed braces in format string");
if (check.extra_closed_braces != 0)
compiletime_fail("Extra closing braces in format string");
{
auto begin = check.used_arguments.begin();
auto end = check.used_arguments.begin() + check.total_used_argument_count;
auto has_all_referenced_arguments = !AK::any_of(begin, end, [](auto& entry) { return entry >= param_count; });
if (!has_all_referenced_arguments)
compiletime_fail("Format string references nonexistent parameter");
}
if (!check.has_explicit_argument_references && check.total_used_argument_count != param_count)
compiletime_fail("Format string does not reference all passed parameters");
// Ensure that no passed parameter is ignored or otherwise not referenced in the format
// As this check is generally pretty expensive, try to avoid it where it cannot fail.
// We will only do this check if the format string has explicit argument refs
// otherwise, the check above covers this check too, as implicit refs
// monotonically increase, and cannot have 'gaps'.
if (check.has_explicit_argument_references) {
auto all_parameters = iota_array<size_t, param_count>(0);
constexpr auto contains = [](auto begin, auto end, auto entry) {
for (; begin != end; begin++) {
if (*begin == entry)
return true;
}
return false;
};
auto references_all_arguments = AK::all_of(
all_parameters,
[&](auto& entry) {
return contains(
check.used_arguments.begin(),
check.used_arguments.begin() + check.total_used_argument_count,
entry);
});
if (!references_all_arguments)
compiletime_fail("Format string does not reference all passed parameters");
}
return true;
}
#endif
StringView m_string;
};
}
namespace AK {
template<typename... Args>
using CheckedFormatString = Format::Detail::CheckedFormatString<IdentityType<Args>...>;
}
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