| /*===----------------- keylockerintrin.h - KL Intrinsics -------------------=== |
| * |
| * Permission is hereby granted, free of charge, to any person obtaining a copy |
| * of this software and associated documentation files (the "Software"), to deal |
| * in the Software without restriction, including without limitation the rights |
| * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell |
| * copies of the Software, and to permit persons to whom the Software is |
| * furnished to do so, subject to the following conditions: |
| * |
| * The above copyright notice and this permission notice shall be included in |
| * all copies or substantial portions of the Software. |
| * |
| * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR |
| * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, |
| * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE |
| * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER |
| * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, |
| * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN |
| * THE SOFTWARE. |
| * |
| *===-----------------------------------------------------------------------=== |
| */ |
| |
| #ifndef __IMMINTRIN_H |
| #error "Never use <keylockerintrin.h> directly; include <immintrin.h> instead." |
| #endif |
| |
| #ifndef _KEYLOCKERINTRIN_H |
| #define _KEYLOCKERINTRIN_H |
| |
| #if !(defined(_MSC_VER) || defined(__SCE__)) || __has_feature(modules) || \ |
| defined(__KL__) |
| |
| /* Define the default attributes for the functions in this file. */ |
| #define __DEFAULT_FN_ATTRS \ |
| __attribute__((__always_inline__, __nodebug__, __target__("kl"),\ |
| __min_vector_width__(128))) |
| |
| /// Load internal wrapping key from __intkey, __enkey_lo and __enkey_hi. __ctl |
| /// will assigned to EAX, whch specifies the KeySource and whether backing up |
| /// the key is permitted. The 256-bit encryption key is loaded from the two |
| /// explicit operands (__enkey_lo and __enkey_hi). The 128-bit integrity key is |
| /// loaded from the implicit operand XMM0 which assigned by __intkey. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> LOADIWKEY </c> instructions. |
| /// |
| /// \operation |
| /// IF CPL > 0 // LOADKWKEY only allowed at ring 0 (supervisor mode) |
| /// GP (0) |
| /// FI |
| /// IF “LOADIWKEY exiting” VM execution control set |
| /// VMexit |
| /// FI |
| /// IF __ctl[4:1] > 1 // Reserved KeySource encoding used |
| /// GP (0) |
| /// FI |
| /// IF __ctl[31:5] != 0 // Reserved bit in __ctl is set |
| /// GP (0) |
| /// FI |
| /// IF __ctl[0] AND (CPUID.19H.ECX[0] == 0) // NoBackup is not supported on this part |
| /// GP (0) |
| /// FI |
| /// IF (__ctl[4:1] == 1) AND (CPUID.19H.ECX[1] == 0) // KeySource of 1 is not supported on this part |
| /// GP (0) |
| /// FI |
| /// IF (__ctl[4:1] == 0) // KeySource of 0. |
| /// IWKey.Encryption Key[127:0] := __enkey_hi[127:0]: |
| /// IWKey.Encryption Key[255:128] := __enkey_lo[127:0] |
| /// IWKey.IntegrityKey[127:0] := __intkey[127:0] |
| /// IWKey.NoBackup := __ctl[0] |
| /// IWKey.KeySource := __ctl[4:1] |
| /// ZF := 0 |
| /// ELSE // KeySource of 1. See RDSEED definition for details of randomness |
| /// IF HW_NRND_GEN.ready == 1 // Full-entropy random data from RDSEED was received |
| /// IWKey.Encryption Key[127:0] := __enkey_hi[127:0] XOR HW_NRND_GEN.data[127:0] |
| /// IWKey.Encryption Key[255:128] := __enkey_lo[127:0] XOR HW_NRND_GEN.data[255:128] |
| /// IWKey.Encryption Key[255:0] := __enkey_hi[127:0]:__enkey_lo[127:0] XOR HW_NRND_GEN.data[255:0] |
| /// IWKey.IntegrityKey[127:0] := __intkey[127:0] XOR HW_NRND_GEN.data[383:256] |
| /// IWKey.NoBackup := __ctl[0] |
| /// IWKey.KeySource := __ctl[4:1] |
| /// ZF := 0 |
| /// ELSE // Random data was not returned from RDSEED. IWKey was not loaded |
| /// ZF := 1 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ void __DEFAULT_FN_ATTRS |
| _mm_loadiwkey (unsigned int __ctl, __m128i __intkey, |
| __m128i __enkey_lo, __m128i __enkey_hi) { |
| __builtin_ia32_loadiwkey (__intkey, __enkey_lo, __enkey_hi, __ctl); |
| } |
| |
| /// Wrap a 128-bit AES key from __key into a key handle and output in |
| /// ((__m128i*)__h) to ((__m128i*)__h) + 2 and a 32-bit value as return. |
| /// The explicit source operand __htype specifies handle restrictions. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> ENCODEKEY128 </c> instructions. |
| /// |
| /// \operation |
| /// InputKey[127:0] := __key[127:0] |
| /// KeyMetadata[2:0] := __htype[2:0] |
| /// KeyMetadata[23:3] := 0 // Reserved for future usage |
| /// KeyMetadata[27:24] := 0 // KeyType is AES-128 (value of 0) |
| /// KeyMetadata[127:28] := 0 // Reserved for future usage |
| /// Handle[383:0] := WrapKey128(InputKey[127:0], KeyMetadata[127:0], |
| /// IWKey.Integrity Key[127:0], IWKey.Encryption Key[255:0]) |
| /// dst[0] := IWKey.NoBackup |
| /// dst[4:1] := IWKey.KeySource[3:0] |
| /// dst[31:5] := 0 |
| /// MEM[__h+127:__h] := Handle[127:0] // AAD |
| /// MEM[__h+255:__h+128] := Handle[255:128] // Integrity Tag |
| /// MEM[__h+383:__h+256] := Handle[383:256] // CipherText |
| /// OF := 0 |
| /// SF := 0 |
| /// ZF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned int __DEFAULT_FN_ATTRS |
| _mm_encodekey128_u32(unsigned int __htype, __m128i __key, void *__h) { |
| return __builtin_ia32_encodekey128_u32(__htype, (__v2di)__key, __h); |
| } |
| |
| /// Wrap a 256-bit AES key from __key_hi:__key_lo into a key handle, then |
| /// output handle in ((__m128i*)__h) to ((__m128i*)__h) + 3 and |
| /// a 32-bit value as return. |
| /// The explicit source operand __htype specifies handle restrictions. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> ENCODEKEY256 </c> instructions. |
| /// |
| /// \operation |
| /// InputKey[127:0] := __key_lo[127:0] |
| /// InputKey[255:128] := __key_hi[255:128] |
| /// KeyMetadata[2:0] := __htype[2:0] |
| /// KeyMetadata[23:3] := 0 // Reserved for future usage |
| /// KeyMetadata[27:24] := 1 // KeyType is AES-256 (value of 1) |
| /// KeyMetadata[127:28] := 0 // Reserved for future usage |
| /// Handle[511:0] := WrapKey256(InputKey[255:0], KeyMetadata[127:0], |
| /// IWKey.Integrity Key[127:0], IWKey.Encryption Key[255:0]) |
| /// dst[0] := IWKey.NoBackup |
| /// dst[4:1] := IWKey.KeySource[3:0] |
| /// dst[31:5] := 0 |
| /// MEM[__h+127:__h] := Handle[127:0] // AAD |
| /// MEM[__h+255:__h+128] := Handle[255:128] // Tag |
| /// MEM[__h+383:__h+256] := Handle[383:256] // CipherText[127:0] |
| /// MEM[__h+511:__h+384] := Handle[511:384] // CipherText[255:128] |
| /// OF := 0 |
| /// SF := 0 |
| /// ZF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned int __DEFAULT_FN_ATTRS |
| _mm_encodekey256_u32(unsigned int __htype, __m128i __key_lo, __m128i __key_hi, |
| void *__h) { |
| return __builtin_ia32_encodekey256_u32(__htype, (__v2di)__key_lo, |
| (__v2di)__key_hi, __h); |
| } |
| |
| /// The AESENC128KL performs 10 rounds of AES to encrypt the __idata using |
| /// the 128-bit key in the handle from the __h. It stores the result in the |
| /// __odata. And return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESENC128KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle[383:0] := MEM[__h+383:__h] // Load is not guaranteed to be atomic. |
| /// IllegalHandle := ( HandleReservedBitSet (Handle[383:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[383:256] || |
| /// HandleKeyType (Handle[383:0]) != HANDLE_KEY_TYPE_AES128 ) |
| /// IF (IllegalHandle) |
| /// ZF := 1 |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate384 (Handle[383:0], IWKey) |
| /// IF (Authentic == 0) |
| /// ZF := 1 |
| /// ELSE |
| /// MEM[__odata+127:__odata] := AES128Encrypt (__idata[127:0], UnwrappedKey) |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesenc128kl_u8(__m128i* __odata, __m128i __idata, const void *__h) { |
| return __builtin_ia32_aesenc128kl_u8((__v2di *)__odata, (__v2di)__idata, __h); |
| } |
| |
| /// The AESENC256KL performs 14 rounds of AES to encrypt the __idata using |
| /// the 256-bit key in the handle from the __h. It stores the result in the |
| /// __odata. And return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESENC256KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle[511:0] := MEM[__h+511:__h] // Load is not guaranteed to be atomic. |
| /// IllegalHandle := ( HandleReservedBitSet (Handle[511:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[255:128] || |
| /// HandleKeyType (Handle[511:0]) != HANDLE_KEY_TYPE_AES256 ) |
| /// IF (IllegalHandle) |
| /// ZF := 1 |
| /// MEM[__odata+127:__odata] := 0 |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate512 (Handle[511:0], IWKey) |
| /// IF (Authentic == 0) |
| /// ZF := 1 |
| /// MEM[__odata+127:__odata] := 0 |
| /// ELSE |
| /// MEM[__odata+127:__odata] := AES256Encrypt (__idata[127:0], UnwrappedKey) |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesenc256kl_u8(__m128i* __odata, __m128i __idata, const void *__h) { |
| return __builtin_ia32_aesenc256kl_u8((__v2di *)__odata, (__v2di)__idata, __h); |
| } |
| |
| /// The AESDEC128KL performs 10 rounds of AES to decrypt the __idata using |
| /// the 128-bit key in the handle from the __h. It stores the result in the |
| /// __odata. And return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESDEC128KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle[383:0] := MEM[__h+383:__h] // Load is not guaranteed to be atomic. |
| /// IllegalHandle := (HandleReservedBitSet (Handle[383:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[383:256] || |
| /// HandleKeyType (Handle[383:0]) != HANDLE_KEY_TYPE_AES128) |
| /// IF (IllegalHandle) |
| /// ZF := 1 |
| /// MEM[__odata+127:__odata] := 0 |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate384 (Handle[383:0], IWKey) |
| /// IF (Authentic == 0) |
| /// ZF := 1 |
| /// MEM[__odata+127:__odata] := 0 |
| /// ELSE |
| /// MEM[__odata+127:__odata] := AES128Decrypt (__idata[127:0], UnwrappedKey) |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesdec128kl_u8(__m128i* __odata, __m128i __idata, const void *__h) { |
| return __builtin_ia32_aesdec128kl_u8((__v2di *)__odata, (__v2di)__idata, __h); |
| } |
| |
| /// The AESDEC256KL performs 10 rounds of AES to decrypt the __idata using |
| /// the 256-bit key in the handle from the __h. It stores the result in the |
| /// __odata. And return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESDEC256KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle[511:0] := MEM[__h+511:__h] |
| /// IllegalHandle := (HandleReservedBitSet (Handle[511:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[383:256] || |
| /// HandleKeyType (Handle[511:0]) != HANDLE_KEY_TYPE_AES256) |
| /// IF (IllegalHandle) |
| /// ZF := 1 |
| /// MEM[__odata+127:__odata] := 0 |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate512 (Handle[511:0], IWKey) |
| /// IF (Authentic == 0) |
| /// ZF := 1 |
| /// MEM[__odata+127:__odata] := 0 |
| /// ELSE |
| /// MEM[__odata+127:__odata] := AES256Decrypt (__idata[127:0], UnwrappedKey) |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesdec256kl_u8(__m128i* __odata, __m128i __idata, const void *__h) { |
| return __builtin_ia32_aesdec256kl_u8((__v2di *)__odata, (__v2di)__idata, __h); |
| } |
| |
| #undef __DEFAULT_FN_ATTRS |
| |
| #endif /* !(defined(_MSC_VER) || defined(__SCE__)) || __has_feature(modules) \ |
| || defined(__KL__) */ |
| |
| #if !(defined(_MSC_VER) || defined(__SCE__)) || __has_feature(modules) || \ |
| defined(__WIDEKL__) |
| |
| /* Define the default attributes for the functions in this file. */ |
| #define __DEFAULT_FN_ATTRS \ |
| __attribute__((__always_inline__, __nodebug__, __target__("kl,widekl"),\ |
| __min_vector_width__(128))) |
| |
| /// Encrypt __idata[0] to __idata[7] using 128-bit AES key indicated by handle |
| /// at __h and store each resultant block back from __odata to __odata+7. And |
| /// return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESENCWIDE128KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle := MEM[__h+383:__h] |
| /// IllegalHandle := ( HandleReservedBitSet (Handle[383:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[255:128] || |
| /// HandleKeyType (Handle[383:0]) != HANDLE_KEY_TYPE_AES128 ) |
| /// IF (IllegalHandle) |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate384 (Handle[383:0], IWKey) |
| /// IF Authentic == 0 |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// FOR i := 0 to 7 |
| /// __odata[i] := AES128Encrypt (__idata[i], UnwrappedKey) |
| /// ENDFOR |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesencwide128kl_u8(__m128i __odata[8], const __m128i __idata[8], const void* __h) { |
| return __builtin_ia32_aesencwide128kl_u8((__v2di *)__odata, |
| (const __v2di *)__idata, __h); |
| } |
| |
| /// Encrypt __idata[0] to __idata[7] using 256-bit AES key indicated by handle |
| /// at __h and store each resultant block back from __odata to __odata+7. And |
| /// return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESENCWIDE256KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle[511:0] := MEM[__h+511:__h] |
| /// IllegalHandle := ( HandleReservedBitSet (Handle[511:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[255:128] || |
| /// HandleKeyType (Handle[511:0]) != HANDLE_KEY_TYPE_AES512 ) |
| /// IF (IllegalHandle) |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate512 (Handle[511:0], IWKey) |
| /// IF Authentic == 0 |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// FOR i := 0 to 7 |
| /// __odata[i] := AES256Encrypt (__idata[i], UnwrappedKey) |
| /// ENDFOR |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesencwide256kl_u8(__m128i __odata[8], const __m128i __idata[8], const void* __h) { |
| return __builtin_ia32_aesencwide256kl_u8((__v2di *)__odata, |
| (const __v2di *)__idata, __h); |
| } |
| |
| /// Decrypt __idata[0] to __idata[7] using 128-bit AES key indicated by handle |
| /// at __h and store each resultant block back from __odata to __odata+7. And |
| /// return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESDECWIDE128KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle[383:0] := MEM[__h+383:__h] |
| /// IllegalHandle := ( HandleReservedBitSet (Handle[383:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[255:128] || |
| /// HandleKeyType (Handle) != HANDLE_KEY_TYPE_AES128 ) |
| /// IF (IllegalHandle) |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate384 (Handle[383:0], IWKey) |
| /// IF Authentic == 0 |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// FOR i := 0 to 7 |
| /// __odata[i] := AES128Decrypt (__idata[i], UnwrappedKey) |
| /// ENDFOR |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesdecwide128kl_u8(__m128i __odata[8], const __m128i __idata[8], const void* __h) { |
| return __builtin_ia32_aesdecwide128kl_u8((__v2di *)__odata, |
| (const __v2di *)__idata, __h); |
| } |
| |
| /// Decrypt __idata[0] to __idata[7] using 256-bit AES key indicated by handle |
| /// at __h and store each resultant block back from __odata to __odata+7. And |
| /// return the affected ZF flag status. |
| /// |
| /// \headerfile <x86intrin.h> |
| /// |
| /// This intrinsic corresponds to the <c> AESDECWIDE256KL </c> instructions. |
| /// |
| /// \operation |
| /// Handle[511:0] := MEM[__h+511:__h] |
| /// IllegalHandle = ( HandleReservedBitSet (Handle[511:0]) || |
| /// (Handle[127:0] AND (CPL > 0)) || |
| /// Handle[255:128] || |
| /// HandleKeyType (Handle) != HANDLE_KEY_TYPE_AES512 ) |
| /// If (IllegalHandle) |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// (UnwrappedKey, Authentic) := UnwrapKeyAndAuthenticate512 (Handle[511:0], IWKey) |
| /// IF Authentic == 0 |
| /// ZF := 1 |
| /// FOR i := 0 to 7 |
| /// __odata[i] := 0 |
| /// ENDFOR |
| /// ELSE |
| /// FOR i := 0 to 7 |
| /// __odata[i] := AES256Decrypt (__idata[i], UnwrappedKey) |
| /// ENDFOR |
| /// ZF := 0 |
| /// FI |
| /// FI |
| /// dst := ZF |
| /// OF := 0 |
| /// SF := 0 |
| /// AF := 0 |
| /// PF := 0 |
| /// CF := 0 |
| /// \endoperation |
| static __inline__ unsigned char __DEFAULT_FN_ATTRS |
| _mm_aesdecwide256kl_u8(__m128i __odata[8], const __m128i __idata[8], const void* __h) { |
| return __builtin_ia32_aesdecwide256kl_u8((__v2di *)__odata, |
| (const __v2di *)__idata, __h); |
| } |
| |
| #undef __DEFAULT_FN_ATTRS |
| |
| #endif /* !(defined(_MSC_VER) || defined(__SCE__)) || __has_feature(modules) \ |
| || defined(__WIDEKL__) */ |
| |
| #endif /* _KEYLOCKERINTRIN_H */ |