// SPDX-License-Identifier: GPL-2.0-only /* * x86-optimized CRC32 functions * * Copyright (C) 2008 Intel Corporation * Copyright 2012 Xyratex Technology Limited * Copyright 2024 Google LLC */ #include "crc-pclmul-template.h" static __ro_after_init DEFINE_STATIC_KEY_FALSE(have_crc32); static __ro_after_init DEFINE_STATIC_KEY_FALSE(have_pclmulqdq); static __ro_after_init DEFINE_STATIC_KEY_FALSE(have_vpclmul_avx512); DECLARE_CRC_PCLMUL_FUNCS(crc32_lsb, u32); static inline u32 crc32_le_arch(u32 crc, const u8 *p, size_t len) { CRC_PCLMUL(crc, p, len, crc32_lsb, crc32_lsb_0xedb88320_consts, have_pclmulqdq); return crc32_le_base(crc, p, len); } #ifdef CONFIG_X86_64 #define CRC32_INST "crc32q %1, %q0" #else #define CRC32_INST "crc32l %1, %0" #endif /* * Use carryless multiply version of crc32c when buffer size is >= 512 to * account for FPU state save/restore overhead. */ #define CRC32C_PCLMUL_BREAKEVEN 512 asmlinkage u32 crc32c_x86_3way(u32 crc, const u8 *buffer, size_t len); static inline u32 crc32c_arch(u32 crc, const u8 *p, size_t len) { size_t num_longs; if (!static_branch_likely(&have_crc32)) return crc32c_base(crc, p, len); if (IS_ENABLED(CONFIG_X86_64) && len >= CRC32C_PCLMUL_BREAKEVEN && static_branch_likely(&have_pclmulqdq) && crypto_simd_usable()) { /* * Long length, the vector registers are usable, and the CPU is * 64-bit and supports both CRC32 and PCLMULQDQ instructions. * It is worthwhile to divide the data into multiple streams, * CRC them independently, and combine them using PCLMULQDQ. * crc32c_x86_3way() does this using 3 streams, which is the * most that x86_64 CPUs have traditionally been capable of. * * However, due to improved VPCLMULQDQ performance on newer * CPUs, use crc32_lsb_vpclmul_avx512() instead of * crc32c_x86_3way() when the CPU supports VPCLMULQDQ and has a * "good" implementation of AVX-512. * * Future work: the optimal strategy on Zen 3--5 is actually to * use both crc32q and VPCLMULQDQ in parallel. Unfortunately, * different numbers of streams and vector lengths are optimal * on each CPU microarchitecture, making it challenging to take * advantage of this. (Zen 5 even supports 7 parallel crc32q, a * major upgrade.) For now, just choose between * crc32c_x86_3way() and crc32_lsb_vpclmul_avx512(). The latter * is needed anyway for crc32_le(), so we just reuse it here. */ kernel_fpu_begin(); if (static_branch_likely(&have_vpclmul_avx512)) crc = crc32_lsb_vpclmul_avx512(crc, p, len, crc32_lsb_0x82f63b78_consts.fold_across_128_bits_consts); else crc = crc32c_x86_3way(crc, p, len); kernel_fpu_end(); return crc; } /* * Short length, XMM registers unusable, or the CPU is 32-bit; but the * CPU supports CRC32 instructions. Just issue a single stream of CRC32 * instructions inline. While this doesn't use the CPU's CRC32 * throughput very well, it avoids the need to combine streams. Stream * combination would be inefficient here. */ for (num_longs = len / sizeof(unsigned long); num_longs != 0; num_longs--, p += sizeof(unsigned long)) asm(CRC32_INST : "+r" (crc) : ASM_INPUT_RM (*(unsigned long *)p)); if (sizeof(unsigned long) > 4 && (len & 4)) { asm("crc32l %1, %0" : "+r" (crc) : ASM_INPUT_RM (*(u32 *)p)); p += 4; } if (len & 2) { asm("crc32w %1, %0" : "+r" (crc) : ASM_INPUT_RM (*(u16 *)p)); p += 2; } if (len & 1) asm("crc32b %1, %0" : "+r" (crc) : ASM_INPUT_RM (*p)); return crc; } #define crc32_be_arch crc32_be_base /* not implemented on this arch */ #define crc32_mod_init_arch crc32_mod_init_arch static inline void crc32_mod_init_arch(void) { if (boot_cpu_has(X86_FEATURE_XMM4_2)) static_branch_enable(&have_crc32); if (boot_cpu_has(X86_FEATURE_PCLMULQDQ)) { static_branch_enable(&have_pclmulqdq); if (have_vpclmul()) { if (have_avx512()) { static_call_update(crc32_lsb_pclmul, crc32_lsb_vpclmul_avx512); static_branch_enable(&have_vpclmul_avx512); } else { static_call_update(crc32_lsb_pclmul, crc32_lsb_vpclmul_avx2); } } } } static inline u32 crc32_optimizations_arch(void) { u32 optimizations = 0; if (static_key_enabled(&have_crc32)) optimizations |= CRC32C_OPTIMIZATION; if (static_key_enabled(&have_pclmulqdq)) optimizations |= CRC32_LE_OPTIMIZATION; return optimizations; }