/* * Copyright (c) 2010-2014,2017 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ #ifndef ZEPHYR_INCLUDE_TOOLCHAIN_GCC_H_ #define ZEPHYR_INCLUDE_TOOLCHAIN_GCC_H_ /** * @file * @brief GCC toolchain abstraction * * Macros to abstract compiler capabilities for GCC toolchain. */ /* * Older versions of GCC do not define __BYTE_ORDER__, so it must be manually * detected and defined using arch-specific definitions. */ #ifndef _LINKER #ifndef __ORDER_BIG_ENDIAN__ #define __ORDER_BIG_ENDIAN__ (1) #endif #ifndef __ORDER_LITTLE_ENDIAN__ #define __ORDER_LITTLE_ENDIAN__ (2) #endif #ifndef __BYTE_ORDER__ #if defined(__BIG_ENDIAN__) || defined(__ARMEB__) || \ defined(__THUMBEB__) || defined(__AARCH64EB__) || \ defined(__MIPSEB__) || defined(__TC32EB__) #define __BYTE_ORDER__ __ORDER_BIG_ENDIAN__ #elif defined(__LITTLE_ENDIAN__) || defined(__ARMEL__) || \ defined(__THUMBEL__) || defined(__AARCH64EL__) || \ defined(__MIPSEL__) || defined(__TC32EL__) #define __BYTE_ORDER__ __ORDER_LITTLE_ENDIAN__ #else #error "__BYTE_ORDER__ is not defined and cannot be automatically resolved" #endif #endif /* C++11 has static_assert built in */ #ifdef __cplusplus #define BUILD_ASSERT(EXPR, MSG...) static_assert(EXPR, "" MSG) #define BUILD_ASSERT_MSG(EXPR, MSG) __DEPRECATED_MACRO BUILD_ASSERT(EXPR, MSG) /* * GCC 4.6 and higher have the C11 _Static_assert built in, and its * output is easier to understand than the common BUILD_ASSERT macros. */ #elif (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)) || \ (__STDC_VERSION__) >= 201100 #define BUILD_ASSERT(EXPR, MSG...) _Static_assert(EXPR, "" MSG) #define BUILD_ASSERT_MSG(EXPR, MSG) __DEPRECATED_MACRO BUILD_ASSERT(EXPR, MSG) #endif #include #include #define ALIAS_OF(of) __attribute__((alias(#of))) #define FUNC_ALIAS(real_func, new_alias, return_type) \ return_type new_alias() ALIAS_OF(real_func) #if defined(CONFIG_ARCH_POSIX) #include /*let's not segfault if this were to happen for some reason*/ #define CODE_UNREACHABLE \ {\ posix_print_error_and_exit("CODE_UNREACHABLE reached from %s:%d\n",\ __FILE__, __LINE__);\ __builtin_unreachable(); \ } #else #define CODE_UNREACHABLE __builtin_unreachable() #endif #define FUNC_NORETURN __attribute__((__noreturn__)) /* The GNU assembler for Cortex-M3 uses # for immediate values, not * comments, so the @nobits# trick does not work. */ #if defined(CONFIG_ARM) #define _NODATA_SECTION(segment) __attribute__((section(#segment))) #else #define _NODATA_SECTION(segment) \ __attribute__((section(#segment ",\"wa\",@nobits#"))) #endif /* Unaligned access */ #define UNALIGNED_GET(p) \ __extension__ ({ \ struct __attribute__((__packed__)) { \ __typeof__(*(p)) __v; \ } *__p = (__typeof__(__p)) (p); \ __p->__v; \ }) #if __GNUC__ >= 7 && defined(CONFIG_ARM) /* Version of UNALIGNED_PUT() which issues a compiler_barrier() after * the store. It is required to workaround an apparent optimization * bug in GCC for ARM Cortex-M3 and higher targets, when multiple * byte, half-word and word stores (strb, strh, str instructions), * which support unaligned access, can be coalesced into store double * (strd) instruction, which doesn't support unaligned access (the * compilers in question do this optimization ignoring __packed__ * attribute). */ #define UNALIGNED_PUT(v, p) \ do { \ struct __attribute__((__packed__)) { \ __typeof__(*p) __v; \ } *__p = (__typeof__(__p)) (p); \ __p->__v = (v); \ compiler_barrier(); \ } while (false) #else #define UNALIGNED_PUT(v, p) \ do { \ struct __attribute__((__packed__)) { \ __typeof__(*p) __v; \ } *__p = (__typeof__(__p)) (p); \ __p->__v = (v); \ } while (false) #endif /* Double indirection to ensure section names are expanded before * stringification */ #define __GENERIC_SECTION(segment) __attribute__((section(STRINGIFY(segment)))) #define Z_GENERIC_SECTION(segment) __GENERIC_SECTION(segment) #define ___in_section(a, b, c) \ __attribute__((section("." Z_STRINGIFY(a) \ "." Z_STRINGIFY(b) \ "." Z_STRINGIFY(c)))) #define __in_section(a, b, c) ___in_section(a, b, c) #define __in_section_unique(seg) ___in_section(seg, __FILE__, __COUNTER__) /* When using XIP, using '__ramfunc' places a function into RAM instead * of FLASH. Make sure '__ramfunc' is defined only when * CONFIG_ARCH_HAS_RAMFUNC_SUPPORT is defined, so that the compiler can * report an error if '__ramfunc' is used but the architecture does not * support it. */ #if !defined(CONFIG_XIP) #define __ramfunc #elif defined(CONFIG_ARCH_HAS_RAMFUNC_SUPPORT) #define __ramfunc __attribute__((noinline)) \ __attribute__((long_call, section(".ramfunc"))) #endif /* !CONFIG_XIP */ #ifndef __packed #define __packed __attribute__((__packed__)) #endif #ifndef __aligned #define __aligned(x) __attribute__((__aligned__(x))) #endif #define __may_alias __attribute__((__may_alias__)) #ifndef __printf_like #define __printf_like(f, a) __attribute__((format (printf, f, a))) #endif #define __used __attribute__((__used__)) #ifndef __deprecated #define __deprecated __attribute__((deprecated)) #endif #define ARG_UNUSED(x) (void)(x) #define likely(x) __builtin_expect((bool)!!(x), true) #define unlikely(x) __builtin_expect((bool)!!(x), false) #define popcount(x) __builtin_popcount(x) #ifndef __weak #define __weak __attribute__((__weak__)) #endif #define __unused __attribute__((__unused__)) /* Builtins with availability that depend on the compiler version. */ #if __GNUC__ >= 5 #define HAS_BUILTIN___builtin_add_overflow 1 #define HAS_BUILTIN___builtin_sub_overflow 1 #define HAS_BUILTIN___builtin_mul_overflow 1 #define HAS_BUILTIN___builtin_div_overflow 1 #endif #if __GNUC__ >= 4 #define HAS_BUILTIN___builtin_clz 1 #define HAS_BUILTIN___builtin_clzl 1 #define HAS_BUILTIN___builtin_clzll 1 #define HAS_BUILTIN___builtin_ctz 1 #define HAS_BUILTIN___builtin_ctzl 1 #define HAS_BUILTIN___builtin_ctzll 1 #endif /* * Be *very* careful with these. You cannot filter out __DEPRECATED_MACRO with * -wno-deprecated, which has implications for -Werror. */ /* * Expands to nothing and generates a warning. Used like * * #define FOO __WARN("Please use BAR instead") ... * * The warning points to the location where the macro is expanded. */ #define __WARN(msg) __WARN1(GCC warning msg) #define __WARN1(s) _Pragma(#s) /* Generic message */ #ifndef __DEPRECATED_MACRO #define __DEPRECATED_MACRO __WARN("Macro is deprecated") #endif /* These macros allow having ARM asm functions callable from thumb */ #if defined(_ASMLANGUAGE) #if defined(CONFIG_ARM) && !defined(CONFIG_ARM64) #if defined(CONFIG_ASSEMBLER_ISA_THUMB2) #define FUNC_CODE() .thumb; #define FUNC_INSTR(a) #else #define FUNC_CODE() .code 32 #define FUNC_INSTR(a) #endif /* CONFIG_ASSEMBLER_ISA_THUMB2 */ #else #define FUNC_CODE() #define FUNC_INSTR(a) #endif /* CONFIG_ARM && !CONFIG_ARM64 */ #endif /* _ASMLANGUAGE */ /* * These macros are used to declare assembly language symbols that need * to be typed properly(func or data) to be visible to the OMF tool. * So that the build tool could mark them as an entry point to be linked * correctly. This is an elfism. Use #if 0 for a.out. */ #if defined(_ASMLANGUAGE) #if defined(CONFIG_ARM) || defined(CONFIG_NIOS2) || defined(CONFIG_RISCV) \ || defined(CONFIG_XTENSA) #define GTEXT(sym) .global sym; .type sym, %function #define GDATA(sym) .global sym; .type sym, %object #define WTEXT(sym) .weak sym; .type sym, %function #define WDATA(sym) .weak sym; .type sym, %object #elif defined(CONFIG_ARC) /* * Need to use assembly macros because ';' is interpreted as the start of * a single line comment in the ARC assembler. */ .macro glbl_text symbol .globl \symbol .type \symbol, %function .endm .macro glbl_data symbol .globl \symbol .type \symbol, %object .endm .macro weak_data symbol .weak \symbol .type \symbol, %object .endm #define GTEXT(sym) glbl_text sym #define GDATA(sym) glbl_data sym #define WDATA(sym) weak_data sym #else /* !CONFIG_ARM && !CONFIG_ARC */ #define GTEXT(sym) .globl sym; .type sym, @function #define GDATA(sym) .globl sym; .type sym, @object #endif /* * These macros specify the section in which a given function or variable * resides. * * - SECTION_FUNC allows only one function to reside in a sub-section * - SECTION_SUBSEC_FUNC allows multiple functions to reside in a sub-section * This ensures that garbage collection only discards the section * if all functions in the sub-section are not referenced. */ #if defined(CONFIG_ARC) /* * Need to use assembly macros because ';' is interpreted as the start of * a single line comment in the ARC assembler. * * Also, '\()' is needed in the .section directive of these macros for * correct substitution of the 'section' variable. */ .macro section_var section, symbol .section .\section\().\symbol \symbol : .endm .macro section_func section, symbol .section .\section\().\symbol, "ax" FUNC_CODE() PERFOPT_ALIGN \symbol : FUNC_INSTR(\symbol) .endm .macro section_subsec_func section, subsection, symbol .section .\section\().\subsection, "ax" PERFOPT_ALIGN \symbol : .endm #define SECTION_VAR(sect, sym) section_var sect, sym #define SECTION_FUNC(sect, sym) section_func sect, sym #define SECTION_SUBSEC_FUNC(sect, subsec, sym) \ section_subsec_func sect, subsec, sym #else /* !CONFIG_ARC */ #define SECTION_VAR(sect, sym) .section .sect.##sym; sym : #define SECTION_FUNC(sect, sym) \ .section .sect.sym, "ax"; \ FUNC_CODE() \ PERFOPT_ALIGN; sym : \ FUNC_INSTR(sym) #define SECTION_SUBSEC_FUNC(sect, subsec, sym) \ .section .sect.subsec, "ax"; PERFOPT_ALIGN; sym : #endif /* CONFIG_ARC */ #endif /* _ASMLANGUAGE */ #if defined(_ASMLANGUAGE) #if defined(CONFIG_ARM) && !defined(CONFIG_ARM64) #if defined(CONFIG_ASSEMBLER_ISA_THUMB2) /* '.syntax unified' is a gcc-ism used in thumb-2 asm files */ #define _ASM_FILE_PROLOGUE .text; .syntax unified; .thumb #else #define _ASM_FILE_PROLOGUE .text; .code 32 #endif /* CONFIG_ASSEMBLER_ISA_THUMB2 */ #elif defined(CONFIG_ARM64) #define _ASM_FILE_PROLOGUE .text #endif /* CONFIG_ARM64 || (CONFIG_ARM && !CONFIG_ARM64)*/ #endif /* _ASMLANGUAGE */ /* * These macros generate absolute symbols for GCC */ /* create an extern reference to the absolute symbol */ #define GEN_OFFSET_EXTERN(name) extern const char name[] #define GEN_ABS_SYM_BEGIN(name) \ EXTERN_C void name(void); \ void name(void) \ { #define GEN_ABS_SYM_END } #if defined(CONFIG_ARM) && !defined(CONFIG_ARM64) /* * GNU/ARM backend does not have a proper operand modifier which does not * produces prefix # followed by value, such as %0 for PowerPC, Intel, and * MIPS. The workaround performed here is using %B0 which converts * the value to ~(value). Thus "n"(~(value)) is set in operand constraint * to output (value) in the ARM specific GEN_OFFSET macro. */ #define GEN_ABSOLUTE_SYM(name, value) \ __asm__(".globl\t" #name "\n\t.equ\t" #name \ ",%B0" \ "\n\t.type\t" #name ",%%object" : : "n"(~(value))) #elif defined(CONFIG_X86) #define GEN_ABSOLUTE_SYM(name, value) \ __asm__(".globl\t" #name "\n\t.equ\t" #name \ ",%p0" \ "\n\t.type\t" #name ",@object" : : "n"(value)) #elif defined(CONFIG_ARC) || defined(CONFIG_ARM64) #define GEN_ABSOLUTE_SYM(name, value) \ __asm__(".globl\t" #name "\n\t.equ\t" #name \ ",%c0" \ "\n\t.type\t" #name ",@object" : : "n"(value)) #elif defined(CONFIG_NIOS2) || defined(CONFIG_RISCV) || defined(CONFIG_XTENSA) /* No special prefixes necessary for constants in this arch AFAICT */ #define GEN_ABSOLUTE_SYM(name, value) \ __asm__(".globl\t" #name "\n\t.equ\t" #name \ ",%0" \ "\n\t.type\t" #name ",%%object" : : "n"(value)) #elif defined(CONFIG_ARCH_POSIX) #define GEN_ABSOLUTE_SYM(name, value) \ __asm__(".globl\t" #name "\n\t.equ\t" #name \ ",%c0" \ "\n\t.type\t" #name ",@object" : : "n"(value)) #else #error processor architecture not supported #endif #define compiler_barrier() do { \ __asm__ __volatile__ ("" ::: "memory"); \ } while (false) /** @brief Return larger value of two provided expressions. * * Macro ensures that expressions are evaluated only once. * * @note Macro has limited usage compared to the standard macro as it cannot be * used: * - to generate constant integer, e.g. __aligned(Z_MAX(4,5)) * - static variable, e.g. array like static uint8_t array[Z_MAX(...)]; */ #define Z_MAX(a, b) ({ \ /* random suffix to avoid naming conflict */ \ __typeof__(a) _value_a_ = (a); \ __typeof__(b) _value_b_ = (b); \ _value_a_ > _value_b_ ? _value_a_ : _value_b_; \ }) /** @brief Return smaller value of two provided expressions. * * Macro ensures that expressions are evaluated only once. See @ref Z_MAX for * macro limitations. */ #define Z_MIN(a, b) ({ \ /* random suffix to avoid naming conflict */ \ __typeof__(a) _value_a_ = (a); \ __typeof__(b) _value_b_ = (b); \ _value_a_ < _value_b_ ? _value_a_ : _value_b_; \ }) #endif /* !_LINKER */ #endif /* ZEPHYR_INCLUDE_TOOLCHAIN_GCC_H_ */