/* Copyright (c) INRIA and Microsoft Corporation. All rights reserved. Licensed under the Apache 2.0 License. */ #ifndef __KRML_TARGET_H #define __KRML_TARGET_H #include #include #include #include #include #include #include /* Since KaRaMeL emits the inline keyword unconditionally, we follow the * guidelines at https://gcc.gnu.org/onlinedocs/gcc/Inline.html and make this * __inline__ to ensure the code compiles with -std=c90 and earlier. */ #ifdef __GNUC__ #define inline __inline__ #endif /******************************************************************************/ /* Macros that KaRaMeL will generate. */ /******************************************************************************/ /* For "bare" targets that do not have a C stdlib, the user might want to use * [-add-early-include '"mydefinitions.h"'] and override these. */ #ifndef KRML_HOST_PRINTF #define KRML_HOST_PRINTF printf #endif #if ( \ (defined __STDC_VERSION__) && (__STDC_VERSION__ >= 199901L) && \ (!(defined KRML_HOST_EPRINTF))) #define KRML_HOST_EPRINTF(...) fprintf(stderr, __VA_ARGS__) #elif !(defined KRML_HOST_EPRINTF) && defined(_MSC_VER) #define KRML_HOST_EPRINTF(...) fprintf(stderr, __VA_ARGS__) #endif #ifndef KRML_HOST_EXIT #define KRML_HOST_EXIT exit #endif #ifndef KRML_HOST_MALLOC #define KRML_HOST_MALLOC malloc #endif #ifndef KRML_HOST_CALLOC #define KRML_HOST_CALLOC calloc #endif #ifndef KRML_HOST_FREE #define KRML_HOST_FREE free #endif #ifndef KRML_HOST_IGNORE #define KRML_HOST_IGNORE(x) (void)(x) #endif #ifndef KRML_NOINLINE #if defined(_MSC_VER) #define KRML_NOINLINE __declspec(noinline) #elif defined(__GNUC__) #define KRML_NOINLINE __attribute__((noinline, unused)) #else #define KRML_NOINLINE #warning "The KRML_NOINLINE macro is not defined for this toolchain!" #warning "The compiler may defeat side-channel resistance with optimizations." #warning "Please locate target.h and try to fill it out with a suitable definition for this compiler." #endif #endif #ifndef KRML_PRE_ALIGN #ifdef _MSC_VER #define KRML_PRE_ALIGN(X) __declspec(align(X)) #else #define KRML_PRE_ALIGN(X) #endif #endif #ifndef KRML_POST_ALIGN #ifdef _MSC_VER #define KRML_POST_ALIGN(X) #else #define KRML_POST_ALIGN(X) __attribute__((aligned(X))) #endif #endif /* MinGW-W64 does not support C11 aligned_alloc, but it supports * MSVC's _aligned_malloc. */ #ifndef KRML_ALIGNED_MALLOC #ifdef __MINGW32__ #include <_mingw.h> #endif #if ( \ defined(_MSC_VER) || \ (defined(__MINGW32__) && defined(__MINGW64_VERSION_MAJOR))) #define KRML_ALIGNED_MALLOC(X, Y) _aligned_malloc(Y, X) #else #define KRML_ALIGNED_MALLOC(X, Y) aligned_alloc(X, Y) #endif #endif /* Since aligned allocations with MinGW-W64 are done with * _aligned_malloc (see above), such pointers must be freed with * _aligned_free. */ #ifndef KRML_ALIGNED_FREE #ifdef __MINGW32__ #include <_mingw.h> #endif #if ( \ defined(_MSC_VER) || \ (defined(__MINGW32__) && defined(__MINGW64_VERSION_MAJOR))) #define KRML_ALIGNED_FREE(X) _aligned_free(X) #else #define KRML_ALIGNED_FREE(X) free(X) #endif #endif #ifndef KRML_HOST_TIME #include /* Prims_nat not yet in scope */ inline static int32_t krml_time(void) { return (int32_t)time(NULL); } #define KRML_HOST_TIME krml_time #endif /* In statement position, exiting is easy. */ #define KRML_EXIT \ do { \ KRML_HOST_PRINTF("Unimplemented function at %s:%d\n", __FILE__, __LINE__); \ KRML_HOST_EXIT(254); \ } while (0) /* In expression position, use the comma-operator and a malloc to return an * expression of the right size. KaRaMeL passes t as the parameter to the macro. */ #define KRML_EABORT(t, msg) \ (KRML_HOST_PRINTF("KaRaMeL abort at %s:%d\n%s\n", __FILE__, __LINE__, msg), \ KRML_HOST_EXIT(255), *((t *)KRML_HOST_MALLOC(sizeof(t)))) /* In FStar.Buffer.fst, the size of arrays is uint32_t, but it's a number of * *elements*. Do an ugly, run-time check (some of which KaRaMeL can eliminate). */ #if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 4)) #define _KRML_CHECK_SIZE_PRAGMA \ _Pragma("GCC diagnostic ignored \"-Wtype-limits\"") #else #define _KRML_CHECK_SIZE_PRAGMA #endif #define KRML_CHECK_SIZE(size_elt, sz) \ do { \ _KRML_CHECK_SIZE_PRAGMA \ if (((size_t)(sz)) > ((size_t)(SIZE_MAX / (size_elt)))) { \ KRML_HOST_PRINTF( \ "Maximum allocatable size exceeded, aborting before overflow at " \ "%s:%d\n", \ __FILE__, __LINE__); \ KRML_HOST_EXIT(253); \ } \ } while (0) #if defined(_MSC_VER) && _MSC_VER < 1900 #define KRML_HOST_SNPRINTF(buf, sz, fmt, arg) \ _snprintf_s(buf, sz, _TRUNCATE, fmt, arg) #else #define KRML_HOST_SNPRINTF(buf, sz, fmt, arg) snprintf(buf, sz, fmt, arg) #endif #if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 4)) #define KRML_DEPRECATED(x) __attribute__((deprecated(x))) #elif defined(__GNUC__) /* deprecated attribute is not defined in GCC < 4.5. */ #define KRML_DEPRECATED(x) #elif defined(_MSC_VER) #define KRML_DEPRECATED(x) __declspec(deprecated(x)) #endif /* Macros for prettier unrolling of loops */ #define KRML_LOOP1(i, n, x) \ { \ x \ i += n; \ (void)i; \ } #define KRML_LOOP2(i, n, x) \ KRML_LOOP1(i, n, x) \ KRML_LOOP1(i, n, x) #define KRML_LOOP3(i, n, x) \ KRML_LOOP2(i, n, x) \ KRML_LOOP1(i, n, x) #define KRML_LOOP4(i, n, x) \ KRML_LOOP2(i, n, x) \ KRML_LOOP2(i, n, x) #define KRML_LOOP5(i, n, x) \ KRML_LOOP4(i, n, x) \ KRML_LOOP1(i, n, x) #define KRML_LOOP6(i, n, x) \ KRML_LOOP4(i, n, x) \ KRML_LOOP2(i, n, x) #define KRML_LOOP7(i, n, x) \ KRML_LOOP4(i, n, x) \ KRML_LOOP3(i, n, x) #define KRML_LOOP8(i, n, x) \ KRML_LOOP4(i, n, x) \ KRML_LOOP4(i, n, x) #define KRML_LOOP9(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP1(i, n, x) #define KRML_LOOP10(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP2(i, n, x) #define KRML_LOOP11(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP3(i, n, x) #define KRML_LOOP12(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP4(i, n, x) #define KRML_LOOP13(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP5(i, n, x) #define KRML_LOOP14(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP6(i, n, x) #define KRML_LOOP15(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP7(i, n, x) #define KRML_LOOP16(i, n, x) \ KRML_LOOP8(i, n, x) \ KRML_LOOP8(i, n, x) #define KRML_UNROLL_FOR(i, z, n, k, x) \ do { \ uint32_t i = z; \ KRML_LOOP##n(i, k, x) \ } while (0) #define KRML_ACTUAL_FOR(i, z, n, k, x) \ do { \ for (uint32_t i = z; i < n; i += k) { \ x \ } \ } while (0) #ifndef KRML_UNROLL_MAX #define KRML_UNROLL_MAX 16 #endif /* 1 is the number of loop iterations, i.e. (n - z)/k as evaluated by krml */ #if 0 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR0(i, z, n, k, x) #else #define KRML_MAYBE_FOR0(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 1 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR1(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 1, k, x) #else #define KRML_MAYBE_FOR1(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 2 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR2(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 2, k, x) #else #define KRML_MAYBE_FOR2(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 3 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR3(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 3, k, x) #else #define KRML_MAYBE_FOR3(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 4 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR4(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 4, k, x) #else #define KRML_MAYBE_FOR4(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 5 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR5(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 5, k, x) #else #define KRML_MAYBE_FOR5(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 6 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR6(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 6, k, x) #else #define KRML_MAYBE_FOR6(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 7 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR7(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 7, k, x) #else #define KRML_MAYBE_FOR7(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 8 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR8(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 8, k, x) #else #define KRML_MAYBE_FOR8(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 9 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR9(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 9, k, x) #else #define KRML_MAYBE_FOR9(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 10 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR10(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 10, k, x) #else #define KRML_MAYBE_FOR10(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 11 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR11(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 11, k, x) #else #define KRML_MAYBE_FOR11(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 12 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR12(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 12, k, x) #else #define KRML_MAYBE_FOR12(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 13 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR13(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 13, k, x) #else #define KRML_MAYBE_FOR13(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 14 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR14(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 14, k, x) #else #define KRML_MAYBE_FOR14(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 15 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR15(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 15, k, x) #else #define KRML_MAYBE_FOR15(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #if 16 <= KRML_UNROLL_MAX #define KRML_MAYBE_FOR16(i, z, n, k, x) KRML_UNROLL_FOR(i, z, 16, k, x) #else #define KRML_MAYBE_FOR16(i, z, n, k, x) KRML_ACTUAL_FOR(i, z, n, k, x) #endif #endif