/* * Copyright 2020 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "src/base/SkMSAN.h" #include "src/core/SkMemset.h" #include #include // memset16 and memset32 could work on 32-bit x86 too, but for simplicity just use this on x64 #if (defined(__x86_64__) || defined(_M_X64)) && !defined(SK_ENABLE_OPTIMIZE_SIZE) static const char* note = "MSAN can't see that repsto initializes memory."; #if defined(_MSC_VER) #include static inline void repsto(uint16_t* dst, uint16_t v, size_t n) { sk_msan_mark_initialized(dst, dst + n, note); __stosw(dst, v, n); } static inline void repsto(uint32_t* dst, uint32_t v, size_t n) { sk_msan_mark_initialized(dst, dst + n, note); static_assert(sizeof(uint32_t) == sizeof(unsigned long)); __stosd(reinterpret_cast(dst), v, n); } static inline void repsto(uint64_t* dst, uint64_t v, size_t n) { sk_msan_mark_initialized(dst, dst + n, note); __stosq(dst, v, n); } #else static inline void repsto(uint16_t* dst, uint16_t v, size_t n) { sk_msan_mark_initialized(dst, dst + n, note); asm volatile("rep stosw" : "+D"(dst), "+c"(n) : "a"(v) : "memory"); } static inline void repsto(uint32_t* dst, uint32_t v, size_t n) { sk_msan_mark_initialized(dst, dst + n, note); asm volatile("rep stosl" : "+D"(dst), "+c"(n) : "a"(v) : "memory"); } static inline void repsto(uint64_t* dst, uint64_t v, size_t n) { sk_msan_mark_initialized(dst, dst + n, note); asm volatile("rep stosq" : "+D"(dst), "+c"(n) : "a"(v) : "memory"); } #endif // ERMS is ideal for large copies but has a relatively high setup cost, // so we use the previous best routine for small inputs. FSRM would make this moot. static void (*g_memset16_prev)(uint16_t*, uint16_t, int); static void (*g_memset32_prev)(uint32_t*, uint32_t, int); static void (*g_memset64_prev)(uint64_t*, uint64_t, int); static void (*g_rect_memset16_prev)(uint16_t*, uint16_t, int, size_t, int); static void (*g_rect_memset32_prev)(uint32_t*, uint32_t, int, size_t, int); static void (*g_rect_memset64_prev)(uint64_t*, uint64_t, int, size_t, int); // Empirically determined with `nanobench -m memset`. static bool small(size_t bytes) { return bytes < 1024; } namespace erms { static inline void memset16(uint16_t* dst, uint16_t v, int n) { return small(sizeof(v) * n) ? g_memset16_prev(dst, v, n) : repsto(dst, v, n); } static inline void memset32(uint32_t* dst, uint32_t v, int n) { return small(sizeof(v) * n) ? g_memset32_prev(dst, v, n) : repsto(dst, v, n); } static inline void memset64(uint64_t* dst, uint64_t v, int n) { return small(sizeof(v) * n) ? g_memset64_prev(dst, v, n) : repsto(dst, v, n); } static inline void rect_memset16(uint16_t* dst, uint16_t v, int n, size_t rowBytes, int height) { if (small(sizeof(v) * n)) { return g_rect_memset16_prev(dst, v, n, rowBytes, height); } for (int stride = rowBytes / sizeof(v); height-- > 0; dst += stride) { repsto(dst, v, n); } } static inline void rect_memset32(uint32_t* dst, uint32_t v, int n, size_t rowBytes, int height) { if (small(sizeof(v) * n)) { return g_rect_memset32_prev(dst, v, n, rowBytes, height); } for (int stride = rowBytes / sizeof(v); height-- > 0; dst += stride) { repsto(dst, v, n); } } static inline void rect_memset64(uint64_t* dst, uint64_t v, int n, size_t rowBytes, int height) { if (small(sizeof(v) * n)) { return g_rect_memset64_prev(dst, v, n, rowBytes, height); } for (int stride = rowBytes / sizeof(v); height-- > 0; dst += stride) { repsto(dst, v, n); } } } // namespace erms #endif // X86_64 && !SK_ENABLE_OPTIMIZE_SIZE namespace SkOpts { void Init_Memset_erms() { #if (defined(__x86_64__) || defined(_M_X64)) && !defined(SK_ENABLE_OPTIMIZE_SIZE) g_memset16_prev = memset16; g_memset32_prev = memset32; g_memset64_prev = memset64; g_rect_memset16_prev = rect_memset16; g_rect_memset32_prev = rect_memset32; g_rect_memset64_prev = rect_memset64; memset16 = erms::memset16; memset32 = erms::memset32; memset64 = erms::memset64; rect_memset16 = erms::rect_memset16; rect_memset32 = erms::rect_memset32; rect_memset64 = erms::rect_memset64; #endif // X86_64 && !SK_ENABLE_OPTIMIZE_SIZE } } // namespace SkOpts