1 /* SPDX-License-Identifier: BSD-2-Clause */ 2 /* 3 * Copyright (c) 2014, STMicroelectronics International N.V. 4 */ 5 6 #ifndef COMPILER_H 7 #define COMPILER_H 8 9 /* 10 * Macros that should be used instead of using __attribute__ directly to 11 * ease portability and make the code easier to read. 12 * 13 * Some of the defines below is known to sometimes cause conflicts when 14 * this file is included from xtest in normal world. It is assumed that 15 * the conflicting defines has the same meaning in that environment. 16 * Surrounding the troublesome defines with #ifndef should be enough. 17 */ 18 #define __deprecated __attribute__((deprecated)) 19 #ifndef __packed 20 #define __packed __attribute__((packed)) 21 #endif 22 #define __weak __attribute__((weak)) 23 #ifndef __noreturn 24 #define __noreturn __attribute__((noreturn)) 25 #endif 26 #define __pure __attribute__((pure)) 27 #define __aligned(x) __attribute__((aligned(x))) 28 #define __printf(a, b) __attribute__((format(printf, a, b))) 29 #define __noinline __attribute__((noinline)) 30 #define __attr_const __attribute__((__const__)) 31 #ifndef __unused 32 #define __unused __attribute__((unused)) 33 #endif 34 #define __maybe_unused __attribute__((unused)) 35 #ifndef __used 36 #define __used __attribute__((__used__)) 37 #endif 38 #define __must_check __attribute__((warn_unused_result)) 39 #define __cold __attribute__((__cold__)) 40 #define __section(x) __attribute__((section(x))) 41 #define __data __section(".data") 42 #define __bss __section(".bss") 43 /* 44 * Override sections flags/type generated by the C compiler to make sure they 45 * are: "a",%progbits (thus creating an allocatable, non-writeable, non- 46 * executable data section). 47 * The trailing '//' comments out the flags generated by the compiler. 48 * This avoids a harmless warning with GCC 8.x. 49 */ 50 #define __SECTION_FLAGS_RODATA ",\"a\",%progbits //" 51 #define __rodata __section(".rodata" __SECTION_FLAGS_RODATA) 52 #define __rodata_unpaged __section(".rodata.__unpaged" __SECTION_FLAGS_RODATA) 53 #define __early_ta __section(".rodata.early_ta" __SECTION_FLAGS_RODATA) 54 #define __noprof __attribute__((no_instrument_function)) 55 56 #define __compiler_bswap64(x) __builtin_bswap64((x)) 57 #define __compiler_bswap32(x) __builtin_bswap32((x)) 58 #define __compiler_bswap16(x) __builtin_bswap16((x)) 59 60 #define __GCC_VERSION (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + \ 61 __GNUC_PATCHLEVEL__) 62 63 #if __GCC_VERSION >= 50100 && !defined(__CHECKER__) 64 #define __HAVE_BUILTIN_OVERFLOW 1 65 #endif 66 67 #ifdef __HAVE_BUILTIN_OVERFLOW 68 #define __compiler_add_overflow(a, b, res) \ 69 __builtin_add_overflow((a), (b), (res)) 70 71 #define __compiler_sub_overflow(a, b, res) \ 72 __builtin_sub_overflow((a), (b), (res)) 73 74 #define __compiler_mul_overflow(a, b, res) \ 75 __builtin_mul_overflow((a), (b), (res)) 76 #else /*!__HAVE_BUILTIN_OVERFLOW*/ 77 78 /* 79 * Copied/inspired from https://www.fefe.de/intof.html 80 */ 81 82 #define __INTOF_ASSIGN(dest, src) (__extension__({ \ 83 typeof(src) __intof_x = (src); \ 84 typeof(dest) __intof_y = __intof_x; \ 85 (((uintmax_t)__intof_x == (uintmax_t)__intof_y) && \ 86 ((__intof_x < 1) == (__intof_y < 1)) ? \ 87 (void)((dest) = __intof_y) , 0 : 1); \ 88 })) 89 90 #define __INTOF_ADD(c, a, b) (__extension__({ \ 91 typeof(a) __intofa_a = (a); \ 92 typeof(b) __intofa_b = (b); \ 93 intmax_t __intofa_a_signed = __intofa_a; \ 94 uintmax_t __intofa_a_unsigned = __intofa_a; \ 95 intmax_t __intofa_b_signed = __intofa_b; \ 96 uintmax_t __intofa_b_unsigned = __intofa_b; \ 97 \ 98 __intofa_b < 1 ? \ 99 __intofa_a < 1 ? \ 100 ((INTMAX_MIN - __intofa_b_signed <= \ 101 __intofa_a_signed)) ? \ 102 __INTOF_ASSIGN((c), __intofa_a_signed + \ 103 __intofa_b_signed) : 1 \ 104 : \ 105 ((__intofa_a_unsigned >= (uintmax_t)-__intofa_b) ? \ 106 __INTOF_ASSIGN((c), __intofa_a_unsigned + \ 107 __intofa_b_signed) \ 108 : \ 109 __INTOF_ASSIGN((c), \ 110 (intmax_t)(__intofa_a_unsigned + \ 111 __intofa_b_signed))) \ 112 : \ 113 __intofa_a < 1 ? \ 114 ((__intofa_b_unsigned >= (uintmax_t)-__intofa_a) ? \ 115 __INTOF_ASSIGN((c), __intofa_a_signed + \ 116 __intofa_b_unsigned) \ 117 : \ 118 __INTOF_ASSIGN((c), \ 119 (intmax_t)(__intofa_a_signed + \ 120 __intofa_b_unsigned))) \ 121 : \ 122 ((UINTMAX_MAX - __intofa_b_unsigned >= \ 123 __intofa_a_unsigned) ? \ 124 __INTOF_ASSIGN((c), __intofa_a_unsigned + \ 125 __intofa_b_unsigned) : 1); \ 126 })) 127 128 #define __INTOF_SUB(c, a, b) (__extension__({ \ 129 typeof(a) __intofs_a = a; \ 130 typeof(b) __intofs_b = b; \ 131 intmax_t __intofs_a_signed = __intofs_a; \ 132 uintmax_t __intofs_a_unsigned = __intofs_a; \ 133 intmax_t __intofs_b_signed = __intofs_b; \ 134 uintmax_t __intofs_b_unsigned = __intofs_b; \ 135 \ 136 __intofs_b < 1 ? \ 137 __intofs_a < 1 ? \ 138 ((INTMAX_MAX + __intofs_b >= __intofs_a) ? \ 139 __INTOF_ASSIGN((c), __intofs_a_signed - \ 140 __intofs_b_signed) : 1) \ 141 : \ 142 (((uintmax_t)(UINTMAX_MAX + __intofs_b_signed) >= \ 143 __intofs_a_unsigned) ? \ 144 __INTOF_ASSIGN((c), __intofs_a - \ 145 __intofs_b) : 1) \ 146 : \ 147 __intofs_a < 1 ? \ 148 (((INTMAX_MIN + __intofs_b <= __intofs_a)) ? \ 149 __INTOF_ASSIGN((c), \ 150 (intmax_t)(__intofs_a_signed - \ 151 __intofs_b_unsigned)) : 1) \ 152 : \ 153 ((__intofs_b_unsigned <= __intofs_a_unsigned) ? \ 154 __INTOF_ASSIGN((c), __intofs_a_unsigned - \ 155 __intofs_b_unsigned) \ 156 : \ 157 __INTOF_ASSIGN((c), \ 158 (intmax_t)(__intofs_a_unsigned - \ 159 __intofs_b_unsigned))); \ 160 })) 161 162 /* 163 * Dealing with detecting overflow in multiplication of integers. 164 * 165 * First step is to remove two corner cases with the minum signed integer 166 * which can't be represented as a positive integer + sign. 167 * Multiply with 0 or 1 can't overflow, no checking needed of the operation, 168 * only if it can be assigned to the result. 169 * 170 * After the corner cases are eliminated we convert the two factors to 171 * positive unsigned values, keeping track of the original in another 172 * variable which is used at the end to determine the sign of the product. 173 * 174 * The two terms (a and b) are divided into upper and lower half (x1 upper 175 * and x0 lower), so the product is: 176 * ((a1 << hshift) + a0) * ((b1 << hshift) + b0) 177 * which also is: 178 * ((a1 * b1) << (hshift * 2)) + (T1) 179 * ((a1 * b0 + a0 * b1) << hshift) + (T2) 180 * (a0 * b0) (T3) 181 * 182 * From this we can tell and (a1 * b1) has to be 0 or we'll overflow, that 183 * is, at least one of a1 or b1 has to be 0. Once this has been checked the 184 * addition: ((a1 * b0) << hshift) + ((a0 * b1) << hshift) 185 * isn't an addition as one of the terms will be 0. 186 * 187 * Since each factor in: (a0 * b0) 188 * only uses half the capicity of the underlaying type it can't overflow 189 * 190 * The addition of T2 and T3 can overflow so we use __INTOF_ADD() to 191 * perform that addition. If the addition succeeds without overflow the 192 * result is assigned the required sign and checked for overflow again. 193 */ 194 195 #define __intof_mul_negate ((__intof_oa < 1) != (__intof_ob < 1)) 196 #define __intof_mul_hshift (sizeof(uintmax_t) * 8 / 2) 197 #define __intof_mul_hmask (UINTMAX_MAX >> __intof_mul_hshift) 198 #define __intof_mul_a0 ((uintmax_t)(__intof_a) >> __intof_mul_hshift) 199 #define __intof_mul_b0 ((uintmax_t)(__intof_b) >> __intof_mul_hshift) 200 #define __intof_mul_a1 ((uintmax_t)(__intof_a) & __intof_mul_hmask) 201 #define __intof_mul_b1 ((uintmax_t)(__intof_b) & __intof_mul_hmask) 202 #define __intof_mul_t (__intof_mul_a1 * __intof_mul_b0 + \ 203 __intof_mul_a0 * __intof_mul_b1) 204 205 #define __INTOF_MUL(c, a, b) (__extension__({ \ 206 typeof(a) __intof_oa = (a); \ 207 typeof(a) __intof_a = __intof_oa < 1 ? -__intof_oa : __intof_oa; \ 208 typeof(b) __intof_ob = (b); \ 209 typeof(b) __intof_b = __intof_ob < 1 ? -__intof_ob : __intof_ob; \ 210 typeof(c) __intof_c; \ 211 \ 212 __intof_oa == 0 || __intof_ob == 0 || \ 213 __intof_oa == 1 || __intof_ob == 1 ? \ 214 __INTOF_ASSIGN((c), __intof_oa * __intof_ob) : \ 215 (__intof_mul_a0 && __intof_mul_b0) || \ 216 __intof_mul_t > __intof_mul_hmask ? 1 : \ 217 __INTOF_ADD((__intof_c), __intof_mul_t << __intof_mul_hshift, \ 218 __intof_mul_a1 * __intof_mul_b1) ? 1 : \ 219 __intof_mul_negate ? __INTOF_ASSIGN((c), -__intof_c) : \ 220 __INTOF_ASSIGN((c), __intof_c); \ 221 })) 222 223 #define __compiler_add_overflow(a, b, res) __INTOF_ADD(*(res), (a), (b)) 224 #define __compiler_sub_overflow(a, b, res) __INTOF_SUB(*(res), (a), (b)) 225 #define __compiler_mul_overflow(a, b, res) __INTOF_MUL(*(res), (a), (b)) 226 227 #endif /*!__HAVE_BUILTIN_OVERFLOW*/ 228 229 #define __compiler_compare_and_swap(p, oval, nval) \ 230 __atomic_compare_exchange_n((p), (oval), (nval), true, \ 231 __ATOMIC_ACQUIRE, __ATOMIC_RELAXED) \ 232 233 #define __compiler_atomic_load(p) __atomic_load_n((p), __ATOMIC_RELAXED) 234 #define __compiler_atomic_store(p, val) \ 235 __atomic_store_n((p), (val), __ATOMIC_RELAXED) 236 237 #endif /*COMPILER_H*/ 238