mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
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706 lines
21 KiB
C
706 lines
21 KiB
C
/** @file
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OcGuardLib
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Copyright (c) 2018, vit9696
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All rights reserved.
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD License
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which accompanies this distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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**/
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#ifndef OC_GUARD_LIB_H
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#define OC_GUARD_LIB_H
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///
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/// Maximum values for common UEFI Data Types
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///
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#define MAX_INT8 ((INT8)0x7F)
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#define MAX_UINT8 ((UINT8)0xFF)
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#define MAX_INT16 ((INT16)0x7FFF)
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#define MAX_UINT16 ((UINT16)0xFFFF)
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#define MAX_INT32 ((INT32)0x7FFFFFFF)
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#define MAX_UINT32 ((UINT32)0xFFFFFFFF)
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#define MAX_INT64 ((INT64)0x7FFFFFFFFFFFFFFFULL)
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#define MAX_UINT64 ((UINT64)0xFFFFFFFFFFFFFFFFULL)
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///
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/// Minimum values for the signed UEFI Data Types
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///
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#define MIN_INT8 (((INT8) -127) - 1)
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#define MIN_INT16 (((INT16) -32767) - 1)
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#define MIN_INT32 (((INT32) -2147483647) - 1)
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#define MIN_INT64 (((INT64) -9223372036854775807LL) - 1)
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//
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// The macros below provide compile-time assertions.
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// This is important, as UDK only has VERIFY_SIZE_OF, which is limited and broken.
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// Since it is implemented as an extern, it neither lets one to verify array size and array
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// element size (due to variable redeclaration) at the same time, nor allows macro use
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// within a .c file (due to unused variable warnings).
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// The reason for split declarations exists due to MSVC legacy.
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//
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#if defined(__GUNC__) || (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 201100L)
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//
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// Any supported GCC-compatible implements _Static_assert.
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// So do any C11-compliant compilers.
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//
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#define OC_GLOBAL_STATIC_ASSERT(Expr, Message) _Static_assert (Expr, Message)
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#define OC_INLINE_STATIC_ASSERT(Expr, Message) _Static_assert (Expr, Message)
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#elif defined(_MSC_VER) && _MSC_VER >= 1600
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//
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// Starting from VS 2010 MSVC supports static_assert in both C and C++ modes.
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//
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#define OC_GLOBAL_STATIC_ASSERT(Expr, Message) static_assert (Expr, Message)
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#define OC_INLINE_STATIC_ASSERT(Expr, Message) static_assert (Expr, Message)
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#else
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//
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// For MSVC we implement static assertions via switch, as they do not have compile-time
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// offsetof implementation, yet it pointer arithmetics works fine for them in switch.
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// The struct declaration is here to avoid a warning for extra ;.
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// The concatenation indirection does not permit for multiple assertions on one line
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// or within a macro.
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//
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#define OC_STATIC_ASSERT_CONCAT2(Left, Right) Left ## Right
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#define OC_STATIC_ASSERT_CONCAT(Left, Right) OC_STATIC_ASSERT_CONCAT2 (Left, Right)
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#define OC_GLOBAL_STATIC_ASSERT(Expr, Message) \
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VOID OC_STATIC_ASSERT_CONCAT(OC_STATIC_ASSERT__, __LINE__) (VOID) { \
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switch (0) { case 0: case (Expr):; } } \
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struct OC_STATIC_ASSERT_CONCAT(OC_STATIC_ASSERT_T__, __LINE__) { UINT32 Dummy; }
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#define OC_INLINE_STATIC_ASSERT(Expr, Message) \
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do { switch (0) { case 0: case (Expr):; } } while(0)
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#endif
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//
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// The macros below provide pointer alignment checking interfaces.
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// TypedPtr - pointer of a dedicated type, which alignment is to be checked.
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// Align - valid alignment for the target platform (power of two so far).
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// Type - valid complete typename.
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// Ptr - raw pointer value, must fit into UINTN, meant to be uintptr_t equivalent.
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//
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#if defined(OC_FORCE_ALIGN_SUPPORT) || defined(MDE_CPU_AARCH64) || defined(MDE_CPU_X64) || defined(MDE_CPU_ARM) || defined(MDE_CPU_IA32)
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#define OC_ALIGNED(TypedPtr) (0ULL == (((UINTN) (TypedPtr)) & \
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(sizeof (*(TypedPtr)) > sizeof (UINTN) ? (sizeof (UINTN) - 1U) : (sizeof (*(TypedPtr)) - 1U))))
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#define OC_POT_ALIGNED(Align, Ptr) (0ULL == (((UINTN) (Ptr)) & (Align-1)))
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#define OC_TYPE_ALIGNED(Type, Ptr) (0ULL == (((UINTN) (Ptr)) & \
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(sizeof (Type) > sizeof(UINTN) ? (sizeof (UINTN) - 1U) : (sizeof (Type) - 1U))))
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#else
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#error "Unknown target platform. Alignment macros are not applicable."
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#endif
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//
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// The interfaces below provide base safe arithmetics, reporting
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// signed integer overflow and unsigned integer wraparound similarly to
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// os/overflow.h in macOS SDK.
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//
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// Each interface may be implemented not only as an actual function, but
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// a macro as well. Macro implementations are allowed to evaluate the
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// expressions no more than once, and are supposed to provide faster
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// compiler builtins if available.
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//
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// Each interface returns FALSE when the the stored result is equal to
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// the infinite precision result, otherwise TRUE. The operands should
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// be read left to right with the last argument representing a non-NULL
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// pointer to the resulting value of the same type.
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//
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// More information could be found in Clang Extensions documentation:
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// http://releases.llvm.org/7.0.0/tools/clang/docs/LanguageExtensions.html#checked-arithmetic-builtins
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//
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//
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// 32-bit integer addition, subtraction, multiplication, triple addition (A+B+C),
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// triple multiplication (A*B*C), addition with multiplication ((A+B)*C),
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// and multiplication with addition (A*B+C) support.
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//
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BOOLEAN
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OcOverflowAddU32 (
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UINT32 A,
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UINT32 B,
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UINT32 *Result
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);
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BOOLEAN
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OcOverflowSubU32 (
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UINT32 A,
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UINT32 B,
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UINT32 *Result
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);
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BOOLEAN
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OcOverflowMulU32 (
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UINT32 A,
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UINT32 B,
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UINT32 *Result
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);
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BOOLEAN
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OcOverflowTriAddU32 (
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UINT32 A,
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UINT32 B,
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UINT32 C,
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UINT32 *Result
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);
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BOOLEAN
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OcOverflowTriMulU32 (
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UINT32 A,
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UINT32 B,
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UINT32 C,
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UINT32 *Result
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);
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BOOLEAN
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OcOverflowAddMulU32 (
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UINT32 A,
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UINT32 B,
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UINT32 C,
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UINT32 *Result
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);
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BOOLEAN
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OcOverflowMulAddU32 (
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UINT32 A,
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UINT32 B,
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UINT32 C,
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UINT32 *Result
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);
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BOOLEAN
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OcOverflowAddS32 (
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INT32 A,
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INT32 B,
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INT32 *Result
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);
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BOOLEAN
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OcOverflowSubS32 (
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INT32 A,
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INT32 B,
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INT32 *Result
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);
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BOOLEAN
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OcOverflowMulS32 (
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INT32 A,
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INT32 B,
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INT32 *Result
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);
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BOOLEAN
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OcOverflowTriAddS32 (
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INT32 A,
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INT32 B,
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INT32 C,
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INT32 *Result
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);
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BOOLEAN
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OcOverflowTriMulS32 (
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INT32 A,
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INT32 B,
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INT32 C,
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INT32 *Result
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);
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BOOLEAN
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OcOverflowAddMulS32 (
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INT32 A,
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INT32 B,
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INT32 C,
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INT32 *Result
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);
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BOOLEAN
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OcOverflowMulAddS32 (
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INT32 A,
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INT32 B,
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INT32 C,
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INT32 *Result
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);
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//
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// 64-bit integer addition, subtraction, multiplication, triple addition (A+B+C),
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// triple multiplication (A*B*C), addition with multiplication ((A+B)*C),
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// and multiplication with addition (A*B+C) support.
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//
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BOOLEAN
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OcOverflowAddU64 (
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UINT64 A,
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UINT64 B,
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UINT64 *Result
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);
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BOOLEAN
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OcOverflowSubU64 (
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UINT64 A,
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UINT64 B,
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UINT64 *Result
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);
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BOOLEAN
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OcOverflowMulU64 (
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UINT64 A,
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UINT64 B,
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UINT64 *Result
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);
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BOOLEAN
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OcOverflowTriAddU64 (
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UINT64 A,
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UINT64 B,
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UINT64 C,
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UINT64 *Result
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);
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BOOLEAN
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OcOverflowTriMulU64 (
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UINT64 A,
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UINT64 B,
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UINT64 C,
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UINT64 *Result
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);
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BOOLEAN
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OcOverflowAddMulU64 (
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UINT64 A,
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UINT64 B,
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UINT64 C,
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UINT64 *Result
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);
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BOOLEAN
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OcOverflowMulAddU64 (
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UINT64 A,
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UINT64 B,
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UINT64 C,
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UINT64 *Result
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);
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BOOLEAN
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OcOverflowAddS64 (
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INT64 A,
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INT64 B,
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INT64 *Result
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);
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BOOLEAN
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OcOverflowSubS64 (
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INT64 A,
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INT64 B,
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INT64 *Result
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);
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BOOLEAN
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OcOverflowMulS64 (
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INT64 A,
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INT64 B,
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INT64 *Result
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);
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BOOLEAN
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OcOverflowTriAddS64 (
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INT64 A,
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INT64 B,
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INT64 C,
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INT64 *Result
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);
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BOOLEAN
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OcOverflowTriMulS64 (
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INT64 A,
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INT64 B,
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INT64 C,
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INT64 *Result
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);
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BOOLEAN
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OcOverflowAddMulS64 (
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INT64 A,
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INT64 B,
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INT64 C,
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INT64 *Result
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);
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BOOLEAN
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OcOverflowMulAddS64 (
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INT64 A,
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INT64 B,
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INT64 C,
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INT64 *Result
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);
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//
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// Native integer addition, subtraction, multiplication, triple addition (A+B+C),
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// triple multiplication (A*B*C), addition with multiplication ((A+B)*C),
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// and multiplication with addition (A*B+C) support.
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//
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BOOLEAN
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OcOverflowAddUN (
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UINTN A,
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UINTN B,
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UINTN *Result
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);
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BOOLEAN
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OcOverflowSubUN (
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UINTN A,
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UINTN B,
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UINTN *Result
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);
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BOOLEAN
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OcOverflowMulUN (
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UINTN A,
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UINTN B,
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UINTN *Result
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);
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BOOLEAN
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OcOverflowTriAddUN (
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UINTN A,
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UINTN B,
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UINTN C,
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UINTN *Result
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);
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BOOLEAN
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OcOverflowTriMulUN (
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UINTN A,
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UINTN B,
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UINTN C,
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UINTN *Result
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);
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BOOLEAN
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OcOverflowAddMulUN (
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UINTN A,
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UINTN B,
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UINTN C,
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UINTN *Result
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);
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BOOLEAN
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OcOverflowMulAddUN (
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UINTN A,
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UINTN B,
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UINTN C,
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UINTN *Result
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);
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BOOLEAN
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OcOverflowAddSN (
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INTN A,
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INTN B,
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INTN *Result
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);
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BOOLEAN
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OcOverflowSubSN (
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INTN A,
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INTN B,
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INTN *Result
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);
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BOOLEAN
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OcOverflowMulSN (
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INTN A,
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INTN B,
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INTN *Result
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);
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BOOLEAN
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OcOverflowTriAddSN (
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INTN A,
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INTN B,
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INTN C,
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INTN *Result
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);
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BOOLEAN
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OcOverflowTriMulSN (
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INTN A,
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INTN B,
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INTN C,
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INTN *Result
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);
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BOOLEAN
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OcOverflowAddMulSN (
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INTN A,
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INTN B,
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INTN C,
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INTN *Result
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);
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BOOLEAN
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OcOverflowMulAddSN (
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INTN A,
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INTN B,
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INTN C,
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INTN *Result
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);
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//
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// Macro implemenations of the above declarations
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//
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#ifdef __has_builtin
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//
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// Type-generic checkers are available
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//
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#if __has_builtin(__builtin_add_overflow) && __has_builtin(__builtin_sub_overflow) && __has_builtin(__builtin_mul_overflow)
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#define OcOverflowAddU32(A, B, Res) __builtin_add_overflow((UINT32)(A), (UINT32)(B), (UINT32 *)(Res))
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#define OcOverflowSubU32(A, B, Res) __builtin_sub_overflow((UINT32)(A), (UINT32)(B), (UINT32 *)(Res))
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#define OcOverflowMulU32(A, B, Res) __builtin_mul_overflow((UINT32)(A), (UINT32)(B), (UINT32 *)(Res))
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#define OcOverflowAddS32(A, B, Res) __builtin_add_overflow((INT32)(A), (INT32)(B), (INT32 *)(Res))
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#define OcOverflowSubS32(A, B, Res) __builtin_sub_overflow((INT32)(A), (INT32)(B), (INT32 *)(Res))
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#define OcOverflowMulS32(A, B, Res) __builtin_mul_overflow((INT32)(A), (INT32)(B), (INT32 *)(Res))
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#define OcOverflowAddU64(A, B, Res) __builtin_add_overflow((UINT64)(A), (UINT64)(B), (UINT64 *)(Res))
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#define OcOverflowSubU64(A, B, Res) __builtin_sub_overflow((UINT64)(A), (UINT64)(B), (UINT64 *)(Res))
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#define OcOverflowMulU64(A, B, Res) __builtin_mul_overflow((UINT64)(A), (UINT64)(B), (UINT64 *)(Res))
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#define OcOverflowAddS64(A, B, Res) __builtin_add_overflow((INT64)(A), (INT64)(B), (INT64 *)(Res))
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#define OcOverflowSubS64(A, B, Res) __builtin_sub_overflow((INT64)(A), (INT64)(B), (INT64 *)(Res))
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#define OcOverflowMulS64(A, B, Res) __builtin_mul_overflow((INT64)(A), (INT64)(B), (INT64 *)(Res))
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#define OcOverflowAddUN(A, B, Res) __builtin_add_overflow((UINTN)(A), (UINTN)(B), (UINTN *)(Res))
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#define OcOverflowSubUN(A, B, Res) __builtin_sub_overflow((UINTN)(A), (UINTN)(B), (UINTN *)(Res))
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#define OcOverflowMulUN(A, B, Res) __builtin_mul_overflow((UINTN)(A), (UINTN)(B), (UINTN *)(Res))
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#define OcOverflowAddSN(A, B, Res) __builtin_add_overflow((INTN)(A), (INTN)(B), (INTN *)(Res))
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#define OcOverflowSubSN(A, B, Res) __builtin_sub_overflow((INTN)(A), (INTN)(B), (INTN *)(Res))
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#define OcOverflowMulSN(A, B, Res) __builtin_mul_overflow((INTN)(A), (INTN)(B), (INTN *)(Res))
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#elif defined(__GNUC__) || defined(__clang__)
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//
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// Builtin type checkers are available, but we have to match their sizes.
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// For this reason we force the list of supported architectures here based on ProcessorBind.h,
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// and with the assumption that CHAR_BIT is 8.
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//
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//
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// Implement 32-bit intrinsics with int and unsigned int on architectures that support it.
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//
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#if defined(MDE_CPU_AARCH64) || defined(MDE_CPU_ARM) || defined(MDE_CPU_X64) || defined(MDE_CPU_IA32)
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VERIFY_SIZE_OF (int, 4);
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VERIFY_SIZE_OF (unsigned, 4);
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#define OcOverflowAddU32(A, B, Res) __builtin_uadd_overflow((UINT32)(A), (UINT32)(B), (UINT32 *)(Res))
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#define OcOverflowSubU32(A, B, Res) __builtin_usub_overflow((UINT32)(A), (UINT32)(B), (UINT32 *)(Res))
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#define OcOverflowMulU32(A, B, Res) __builtin_umul_overflow((UINT32)(A), (UINT32)(B), (UINT32 *)(Res))
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#define OcOverflowAddS32(A, B, Res) __builtin_sadd_overflow((INT32)(A), (INT32)(B), (INT32 *)(Res))
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#define OcOverflowSubS32(A, B, Res) __builtin_ssub_overflow((INT32)(A), (INT32)(B), (INT32 *)(Res))
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#define OcOverflowMulS32(A, B, Res) __builtin_smul_overflow((INT32)(A), (INT32)(B), (INT32 *)(Res))
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#endif // 32-bit integer support
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//
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// Implement 64-bit intrinsics with long long and unsigned long long on architectures that support it.
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// Note: ProcessorBind.h may use long on X64, but it is as large as long long.
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//
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#if defined(MDE_CPU_AARCH64) || defined(MDE_CPU_ARM) || defined(MDE_CPU_X64) || defined(MDE_CPU_IA32)
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typedef long long oc_guard_long_long;
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typedef unsigned long long oc_guard_unsigned_long_long;
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VERIFY_SIZE_OF (oc_guard_long_long, 8);
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VERIFY_SIZE_OF (oc_guard_unsigned_long_long, 8);
|
|
|
|
#define OcOverflowAddU64(A, B, Res) __builtin_uaddll_overflow((UINT64)(A), (UINT64)(B), (UINT64 *)(Res))
|
|
#define OcOverflowSubU64(A, B, Res) __builtin_usubll_overflow((UINT64)(A), (UINT64)(B), (UINT64 *)(Res))
|
|
#define OcOverflowMulU64(A, B, Res) __builtin_umulll_overflow((UINT64)(A), (UINT64)(B), (UINT64 *)(Res))
|
|
#define OcOverflowAddS64(A, B, Res) __builtin_saddll_overflow((INT64)(A), (INT64)(B), (INT64 *)(Res))
|
|
#define OcOverflowSubS64(A, B, Res) __builtin_ssubll_overflow((INT64)(A), (INT64)(B), (INT64 *)(Res))
|
|
#define OcOverflowMulS64(A, B, Res) __builtin_smulll_overflow((INT64)(A), (INT64)(B), (INT64 *)(Res))
|
|
|
|
#endif // 64-bit integer support
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|
|
|
//
|
|
// Implement native intrinsics with 32-bit or 64-bit intrinsics depending on the support.
|
|
//
|
|
#if defined(MDE_CPU_AARCH64) || defined(MDE_CPU_X64)
|
|
|
|
VERIFY_SIZE_OF (INTN, 8);
|
|
VERIFY_SIZE_OF (UINTN, 8);
|
|
|
|
#define OcOverflowAddUN(A, B, Res) OcOverflowAddU64((A), (B), (Res))
|
|
#define OcOverflowSubUN(A, B, Res) OcOverflowSubU64((A), (B), (Res))
|
|
#define OcOverflowMulUN(A, B, Res) OcOverflowMulU64((A), (B), (Res))
|
|
#define OcOverflowAddSN(A, B, Res) OcOverflowAddS64((A), (B), (Res))
|
|
#define OcOverflowSubSN(A, B, Res) OcOverflowSubS64((A), (B), (Res))
|
|
#define OcOverflowMulSN(A, B, Res) OcOverflowMulS64((A), (B), (Res))
|
|
|
|
#elif defined(MDE_CPU_ARM) || defined(MDE_CPU_IA32)
|
|
|
|
VERIFY_SIZE_OF (INTN, 4);
|
|
VERIFY_SIZE_OF (UINTN, 4);
|
|
|
|
#define OcOverflowAddUN(A, B, Res) OcOverflowAddU32((A), (B), (Res))
|
|
#define OcOverflowSubUN(A, B, Res) OcOverflowSubU32((A), (B), (Res))
|
|
#define OcOverflowMulUN(A, B, Res) OcOverflowMulU32((A), (B), (Res))
|
|
#define OcOverflowAddSN(A, B, Res) OcOverflowAddS32((A), (B), (Res))
|
|
#define OcOverflowSubSN(A, B, Res) OcOverflowSubS32((A), (B), (Res))
|
|
#define OcOverflowMulSN(A, B, Res) OcOverflowMulS32((A), (B), (Res))
|
|
|
|
#endif // native integer support
|
|
|
|
#endif // type integer support
|
|
|
|
#endif // __has_builtin
|
|
|
|
#if defined(__GNUC__) || defined(__clang__)
|
|
|
|
//
|
|
// Macro implementations for compilers supporting Statement Expressions:
|
|
// https://gcc.gnu.org/onlinedocs/gcc/Statement-Exprs.html
|
|
//
|
|
|
|
#define OcOverflowTriAddU32(A, B, C, Res) ({ \
|
|
UINT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddU32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddU32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriMulU32(A, B, C, Res) ({ \
|
|
UINT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulU32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulU32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowAddMulU32(A, B, C, Res) ({ \
|
|
UINT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddU32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulU32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowMulAddU32(A, B, C, Res) ({ \
|
|
UINT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulU32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddU32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriAddS32(A, B, C, Res) ({ \
|
|
INT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddS32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddS32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriMulS32(A, B, C, Res) ({ \
|
|
INT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulS32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulS32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowAddMulS32(A, B, C, Res) ({ \
|
|
INT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddS32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulS32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowMulAddS32(A, B, C, Res) ({ \
|
|
INT32 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulS32((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddS32(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
|
|
#define OcOverflowTriAddU64(A, B, C, Res) ({ \
|
|
UINT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddU64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddU64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriMulU64(A, B, C, Res) ({ \
|
|
UINT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulU64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulU64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowAddMulU64(A, B, C, Res) ({ \
|
|
UINT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddU64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulU64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowMulAddU64(A, B, C, Res) ({ \
|
|
UINT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulU64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddU64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriAddS64(A, B, C, Res) ({ \
|
|
INT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddS64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddS64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriMulS64(A, B, C, Res) ({ \
|
|
INT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulS64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulS64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowAddMulS64(A, B, C, Res) ({ \
|
|
INT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddS64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulS64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowMulAddS64(A, B, C, Res) ({ \
|
|
INT64 OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulS64((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddS64(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
|
|
#define OcOverflowTriAddUN(A, B, C, Res) ({ \
|
|
UINTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddUN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddUN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriMulUN(A, B, C, Res) ({ \
|
|
UINTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulUN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulUN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowAddMulUN(A, B, C, Res) ({ \
|
|
UINTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddUN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulUN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowMulAddUN(A, B, C, Res) ({ \
|
|
UINTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulUN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddUN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriAddSN(A, B, C, Res) ({ \
|
|
INTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddSN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddSN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowTriMulSN(A, B, C, Res) ({ \
|
|
INTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulSN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulSN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowAddMulSN(A, B, C, Res) ({ \
|
|
INTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowAddSN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowMulSN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
#define OcOverflowMulAddSN(A, B, C, Res) ({ \
|
|
INTN OcTmp__; BOOLEAN OcFirst__, OcSecond__; \
|
|
OcFirst__ = OcOverflowMulSN((A), (B), &OcTmp__); \
|
|
OcSecond__ = OcOverflowAddSN(OcTmp__, (C), (Res)); \
|
|
OcFirst__ | OcSecond__; })
|
|
|
|
#endif // __GNUC__
|
|
|
|
#endif // OC_GUARD_LIB_H
|