Siva Chandra Reddy dd33f9cdef [libc] Make the errno macro resolve to the thread local variable directly.
With modern architectures having a thread pointer and language supporting
thread locals, there is no reason to use a function intermediary to access
the thread local errno value.

The entrypoint corresponding to errno has been replaced with an object
library as there is no formal entrypoint for errno anymore.

Reviewed By: jeffbailey, michaelrj

Differential Revision: https://reviews.llvm.org/D120920
2022-03-04 17:29:49 +00:00

247 lines
5.4 KiB
TableGen

include "config/public_api.td"
include "spec/gnu_ext.td"
include "spec/linux.td"
include "spec/llvm_libc_ext.td"
include "spec/posix.td"
include "spec/stdc.td"
def AssertMacro : MacroDef<"assert"> {
let Defn = [{
#undef assert
#ifdef NDEBUG
#define assert(e) (void)0
#else
#ifdef __cplusplus
extern "C"
#endif
_Noreturn void __assert_fail(const char *, const char *, unsigned, const char *);
#define assert(e) \
((e) ? (void)0 : __assert_fail(#e, __FILE__, __LINE__, __PRETTY_FUNCTION__))
#endif
}];
}
def StaticAssertMacro : MacroDef<"static_assert"> {
let Defn = [{
#ifndef __cplusplus
#undef static_assert
#define static_assert _Static_assert
#endif
}];
}
def NullMacro : MacroDef<"NULL"> {
let Defn = [{
#define __need_NULL
#include <stddef.h>
}];
}
def ErrnoMacro : MacroDef<"errno"> {
let Defn = [{
extern _Thread_local int __llvmlibc_errno;
#define errno __llvmlibc_errno
}];
}
def AssertAPI : PublicAPI<"assert.h"> {
let Macros = [
AssertMacro,
StaticAssertMacro,
];
}
def CTypeAPI : PublicAPI<"ctype.h"> {
}
def FCntlAPI : PublicAPI<"fcntl.h"> {
let Types = ["mode_t"];
}
def IntTypesAPI : PublicAPI<"inttypes.h"> {
let Types = ["imaxdiv_t"];
}
def MathErrHandlingMacro : MacroDef<"math_errhandling"> {
let Defn = [{
#ifndef math_errhandling
#ifdef __FAST_MATH__
#define math_errhandling 0
#elif defined __NO_MATH_ERRNO__
#define math_errhandling (MATH_ERREXCEPT)
#else
#define math_errhandling (MATH_ERRNO | MATH_ERREXCEPT)
#endif
#endif // math_errhandling not defined
}];
}
def IsFiniteMacro : MacroDef<"isfinite"> {
let Defn = [{
#define isfinite(x) __builtin_isfinite(x)
}];
}
def IsInfMacro : MacroDef<"isinf"> {
let Defn = [{
#define isinf(x) __builtin_isinf(x)
}];
}
def IsNanMacro : MacroDef<"isnan"> {
let Defn = [{
#define isnan(x) __builtin_isnan(x)
}];
}
def MathAPI : PublicAPI<"math.h"> {
let Macros = [
SimpleMacroDef<"MATH_ERRNO", "1">,
SimpleMacroDef<"MATH_ERREXCEPT", "2">,
MathErrHandlingMacro,
SimpleMacroDef<"INFINITY", "__builtin_inff()">,
SimpleMacroDef<"NAN", "__builtin_nanf(\"\")">,
SimpleMacroDef<"FP_ILOGB0", "(-__INT_MAX__ - 1)">, // INT_MIN
SimpleMacroDef<"FP_ILOGBNAN", "__INT_MAX__">,
IsFiniteMacro,
IsInfMacro,
IsNanMacro,
];
let Types = ["double_t", "float_t"];
}
def FenvAPI: PublicAPI<"fenv.h"> {
let Macros = [
SimpleMacroDef<"FE_DIVBYZERO", "1">,
SimpleMacroDef<"FE_INEXACT", "2">,
SimpleMacroDef<"FE_INVALID", "4">,
SimpleMacroDef<"FE_OVERFLOW", "8">,
SimpleMacroDef<"FE_UNDERFLOW", "16">,
SimpleMacroDef<"FE_ALL_EXCEPT", "(FE_DIVBYZERO|FE_INEXACT|FE_INVALID|FE_OVERFLOW|FE_UNDERFLOW)">,
SimpleMacroDef<"FE_DOWNWARD", "1">,
SimpleMacroDef<"FE_TONEAREST", "2">,
SimpleMacroDef<"FE_TOWARDZERO", "4">,
SimpleMacroDef<"FE_UPWARD", "8">,
SimpleMacroDef<"FE_DFL_ENV", "((fenv_t *)-1)">,
];
let Types = ["fenv_t", "fexcept_t"];
}
def StringAPI : PublicAPI<"string.h"> {
let Types = ["size_t"];
let Macros = [
NullMacro,
];
}
def StdIOAPI : PublicAPI<"stdio.h"> {
let Types = ["size_t", "FILE"];
}
def StdlibAPI : PublicAPI<"stdlib.h"> {
let Types = [
"div_t",
"ldiv_t",
"lldiv_t",
"size_t",
"__bsearchcompare_t",
"__qsortcompare_t",
"__atexithandler_t",
];
}
def TimeAPI : PublicAPI<"time.h"> {
let Types = ["time_t", "struct tm"];
}
def ErrnoAPI : PublicAPI<"errno.h"> {
let Macros = [
ErrnoMacro,
// We largely depend on linux/errno.h to give us the
// various error macro definitions. However, some libc
// implementations have chosen to provide definitions
// for some of the error macros to account for the ones
// missing in linux/errno.h. There is no harm in doing
// the same here if we define the macros only when they
// are not already defined.
MacroDefineIfNot<"ENOTSUP", "EOPNOTSUPP">,
MacroDefineIfNot<"ECANCELED", "125">,
MacroDefineIfNot<"EOWNERDEAD", "130">,
MacroDefineIfNot<"ENOTRECOVERABLE", "131">,
MacroDefineIfNot<"ERFKILL", "132">,
MacroDefineIfNot<"EHWPOISON", "133">,
];
}
def SysMManAPI : PublicAPI<"sys/mman.h"> {
let Types = ["off_t", "size_t"];
let Macros = [
SimpleMacroDef<"PROT_NONE", "0">,
SimpleMacroDef<"PROT_READ", "1">,
SimpleMacroDef<"PROT_WRITE", "2">,
SimpleMacroDef<"PROT_EXEC", "4">,
SimpleMacroDef<"MAP_FIXED", "1">,
SimpleMacroDef<"MAP_PRIVATE", "2">,
SimpleMacroDef<"MAP_SHARED", "4">,
SimpleMacroDef<"MAP_FAILED", "((void*)-1)">,
// TODO: The value of 0x20 is good for x86_64, but has to be extended
// in some manner to accommodate other machine architectures.
SimpleMacroDef<"MAP_ANONYMOUS", "0x20">
// TODO: Add other MAP_* macros used by Linux.
];
}
def SignalAPI : PublicAPI<"signal.h"> {
let Types = ["struct sigaction", "__sighandler_t"];
}
def ThreadsAPI : PublicAPI<"threads.h"> {
let Macros = [
SimpleMacroDef<"ONCE_FLAG_INIT", "{0}">,
];
let Types = [
"__call_once_func_t",
"once_flag",
"cnd_t",
"mtx_t",
"thrd_t",
"thrd_start_t",
];
let Enumerations = [
"mtx_plain",
"mtx_recursive",
"mtx_timed",
"thrd_timedout",
"thrd_success",
"thrd_busy",
"thrd_error",
"thrd_nomem",
];
}
def UniStdAPI : PublicAPI<"unistd.h"> {
let Types = ["size_t", "ssize_t"];
}
def SysStatAPI : PublicAPI<"sys/stat.h"> {
let Types = ["mode_t"];
}