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Subject[Patch V5 4/7] crypto: AES CBC by8 encryption
Date
This patch introduces the assembly routine to do a by8 AES CBC encryption
in support of the AES CBC multi-buffer implementation.

It encrypts 8 data streams of the same key size simultaneously.

Originally-by: Chandramouli Narayanan <mouli_7982@yahoo.com>
Signed-off-by: Megha Dey <megha.dey@linux.intel.com>
Acked-by: Tim Chen <tim.c.chen@linux.intel.com>
---
arch/x86/crypto/aes-cbc-mb/aes_cbc_enc_x8.S | 775 ++++++++++++++++++++++++++++
1 file changed, 775 insertions(+)
create mode 100644 arch/x86/crypto/aes-cbc-mb/aes_cbc_enc_x8.S

diff --git a/arch/x86/crypto/aes-cbc-mb/aes_cbc_enc_x8.S b/arch/x86/crypto/aes-cbc-mb/aes_cbc_enc_x8.S
new file mode 100644
index 0000000..2130574
--- /dev/null
+++ b/arch/x86/crypto/aes-cbc-mb/aes_cbc_enc_x8.S
@@ -0,0 +1,775 @@
+/*
+ * AES CBC by8 multibuffer optimization (x86_64)
+ * This file implements 128/192/256 bit AES CBC encryption
+ *
+ *
+ * This file is provided under a dual BSD/GPLv2 license. When using or
+ * redistributing this file, you may do so under either license.
+ *
+ * GPL LICENSE SUMMARY
+ *
+ * Copyright(c) 2016 Intel Corporation.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of version 2 of the GNU General Public License as
+ * published by the Free Software Foundation.
+ *
+ * This program is distributed in the hope that it will be useful, but
+ * WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * General Public License for more details.
+ *
+ * Contact Information:
+ * James Guilford <james.guilford@intel.com>
+ * Sean Gulley <sean.m.gulley@intel.com>
+ * Tim Chen <tim.c.chen@linux.intel.com>
+ * Megha Dey <megha.dey@linux.intel.com>
+ *
+ * BSD LICENSE
+ *
+ * Copyright(c) 2016 Intel Corporation.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions
+ * are met:
+ *
+ * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * Redistributions in binary form must reproduce the above copyright
+ * notice, this list of conditions and the following disclaimer in
+ * the documentation and/or other materials provided with the
+ * distribution.
+ * Neither the name of Intel Corporation nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+ * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+ * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+ * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ */
+#include <linux/linkage.h>
+
+/* stack size needs to be an odd multiple of 8 for alignment */
+
+#define AES_KEYSIZE_128 16
+#define AES_KEYSIZE_192 24
+#define AES_KEYSIZE_256 32
+
+#define XMM_SAVE_SIZE 16*10
+#define GPR_SAVE_SIZE 8*9
+#define STACK_SIZE (XMM_SAVE_SIZE + GPR_SAVE_SIZE)
+
+#define GPR_SAVE_REG %rsp
+#define GPR_SAVE_AREA %rsp + XMM_SAVE_SIZE
+#define LEN_AREA_OFFSET XMM_SAVE_SIZE + 8*8
+#define LEN_AREA_REG %rsp
+#define LEN_AREA %rsp + XMM_SAVE_SIZE + 8*8
+
+#define IN_OFFSET 0
+#define OUT_OFFSET 8*8
+#define KEYS_OFFSET 16*8
+#define IV_OFFSET 24*8
+
+
+#define IDX %rax
+#define TMP %rbx
+#define ARG %rdi
+#define LEN %rsi
+
+#define KEYS0 %r14
+#define KEYS1 %r15
+#define KEYS2 %rbp
+#define KEYS3 %rdx
+#define KEYS4 %rcx
+#define KEYS5 %r8
+#define KEYS6 %r9
+#define KEYS7 %r10
+
+#define IN0 %r11
+#define IN2 %r12
+#define IN4 %r13
+#define IN6 LEN
+
+#define XDATA0 %xmm0
+#define XDATA1 %xmm1
+#define XDATA2 %xmm2
+#define XDATA3 %xmm3
+#define XDATA4 %xmm4
+#define XDATA5 %xmm5
+#define XDATA6 %xmm6
+#define XDATA7 %xmm7
+
+#define XKEY0_3 %xmm8
+#define XKEY1_4 %xmm9
+#define XKEY2_5 %xmm10
+#define XKEY3_6 %xmm11
+#define XKEY4_7 %xmm12
+#define XKEY5_8 %xmm13
+#define XKEY6_9 %xmm14
+#define XTMP %xmm15
+
+#define MOVDQ movdqu /* assume buffers not aligned */
+#define CONCAT(a, b) a##b
+#define INPUT_REG_SUFX 1 /* IN */
+#define XDATA_REG_SUFX 2 /* XDAT */
+#define KEY_REG_SUFX 3 /* KEY */
+#define XMM_REG_SUFX 4 /* XMM */
+
+/*
+ * To avoid positional parameter errors while compiling
+ * three registers need to be passed
+ */
+.text
+
+.macro pxor2 x, y, z
+ MOVDQ (\x,\y), XTMP
+ pxor XTMP, \z
+.endm
+
+.macro inreg n
+ .if (\n == 0)
+ reg_IN = IN0
+ .elseif (\n == 2)
+ reg_IN = IN2
+ .elseif (\n == 4)
+ reg_IN = IN4
+ .elseif (\n == 6)
+ reg_IN = IN6
+ .else
+ error "inreg: incorrect register number"
+ .endif
+.endm
+.macro xdatareg n
+ .if (\n == 0)
+ reg_XDAT = XDATA0
+ .elseif (\n == 1)
+ reg_XDAT = XDATA1
+ .elseif (\n == 2)
+ reg_XDAT = XDATA2
+ .elseif (\n == 3)
+ reg_XDAT = XDATA3
+ .elseif (\n == 4)
+ reg_XDAT = XDATA4
+ .elseif (\n == 5)
+ reg_XDAT = XDATA5
+ .elseif (\n == 6)
+ reg_XDAT = XDATA6
+ .elseif (\n == 7)
+ reg_XDAT = XDATA7
+ .endif
+.endm
+.macro xkeyreg n
+ .if (\n == 0)
+ reg_KEY = KEYS0
+ .elseif (\n == 1)
+ reg_KEY = KEYS1
+ .elseif (\n == 2)
+ reg_KEY = KEYS2
+ .elseif (\n == 3)
+ reg_KEY = KEYS3
+ .elseif (\n == 4)
+ reg_KEY = KEYS4
+ .elseif (\n == 5)
+ reg_KEY = KEYS5
+ .elseif (\n == 6)
+ reg_KEY = KEYS6
+ .elseif (\n == 7)
+ reg_KEY = KEYS7
+ .endif
+.endm
+.macro xmmreg n
+ .if (\n >= 0) && (\n < 16)
+ /* Valid register number */
+ reg_XMM = %xmm\n
+ .else
+ error "xmmreg: incorrect register number"
+ .endif
+.endm
+
+/*
+ * suffix - register suffix
+ * set up the register name using the loop index I
+ */
+.macro define_reg suffix
+.altmacro
+ .if (\suffix == INPUT_REG_SUFX)
+ inreg %I
+ .elseif (\suffix == XDATA_REG_SUFX)
+ xdatareg %I
+ .elseif (\suffix == KEY_REG_SUFX)
+ xkeyreg %I
+ .elseif (\suffix == XMM_REG_SUFX)
+ xmmreg %I
+ .else
+ error "define_reg: unknown register suffix"
+ .endif
+.noaltmacro
+.endm
+
+/*
+ * aes_cbc_enc_x8 key_len
+ * macro to encode data for 128bit, 192bit and 256bit keys
+ */
+
+.macro aes_cbc_enc_x8 key_len
+
+ sub $STACK_SIZE, %rsp
+
+ mov %rbx, (XMM_SAVE_SIZE + 8*0)(GPR_SAVE_REG)
+ mov %rbp, (XMM_SAVE_SIZE + 8*3)(GPR_SAVE_REG)
+ mov %r12, (XMM_SAVE_SIZE + 8*4)(GPR_SAVE_REG)
+ mov %r13, (XMM_SAVE_SIZE + 8*5)(GPR_SAVE_REG)
+ mov %r14, (XMM_SAVE_SIZE + 8*6)(GPR_SAVE_REG)
+ mov %r15, (XMM_SAVE_SIZE + 8*7)(GPR_SAVE_REG)
+
+ mov $16, IDX
+ shl $4, LEN /* LEN = LEN * 16 */
+ /* LEN is now in terms of bytes */
+ mov LEN, (LEN_AREA_OFFSET)(LEN_AREA_REG)
+
+ /* Run through storing arguments in IN0,2,4,6 */
+ I = 0
+ .rept 4
+ define_reg INPUT_REG_SUFX
+ mov (IN_OFFSET + 8*I)(ARG), reg_IN
+ I = (I + 2)
+ .endr
+
+ /* load 1 .. 8 blocks of plain text into XDATA0..XDATA7 */
+ I = 0
+ .rept 4
+ mov (IN_OFFSET + 8*(I+1))(ARG), TMP
+ define_reg INPUT_REG_SUFX
+ define_reg XDATA_REG_SUFX
+ /* load first block of plain text */
+ MOVDQ (reg_IN), reg_XDAT
+ I = (I + 1)
+ define_reg XDATA_REG_SUFX
+ /* load next block of plain text */
+ MOVDQ (TMP), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* Run through XDATA0 .. XDATA7 to perform plaintext XOR IV */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ pxor (IV_OFFSET + 16*I)(ARG), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ I = 0
+ .rept 8
+ define_reg KEY_REG_SUFX
+ mov (KEYS_OFFSET + 8*I)(ARG), reg_KEY
+ I = (I + 1)
+ .endr
+
+ I = 0
+ /* 0..7 ARK */
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ pxor 16*0(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ I = 0
+ /* 1. ENC */
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*1)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ movdqa 16*3(KEYS0), XKEY0_3 /* load round 3 key */
+
+ I = 0
+ /* 2. ENC */
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*2)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ movdqa 16*4(KEYS1), XKEY1_4 /* load round 4 key */
+
+ /* 3. ENC */
+ aesenc XKEY0_3, XDATA0
+ I = 1
+ .rept 7
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*3)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /*
+ * FIXME:
+ * why can't we reorder encrypt DATA0..DATA7 and load 5th round?
+ */
+ aesenc (16*4)(KEYS0), XDATA0 /* 4. ENC */
+ movdqa 16*5(KEYS2), XKEY2_5 /* load round 5 key */
+ aesenc XKEY1_4, XDATA1 /* 4. ENC */
+
+ I = 2
+ .rept 6
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*4)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ aesenc (16*5)(KEYS0), XDATA0 /* 5. ENC */
+ aesenc (16*5)(KEYS1), XDATA1 /* 5. ENC */
+ movdqa 16*6(KEYS3), XKEY3_6 /* load round 6 key */
+ aesenc XKEY2_5, XDATA2 /* 5. ENC */
+ I = 3
+ .rept 5
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*5)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ aesenc (16*6)(KEYS0), XDATA0 /* 6. ENC */
+ aesenc (16*6)(KEYS1), XDATA1 /* 6. ENC */
+ aesenc (16*6)(KEYS2), XDATA2 /* 6. ENC */
+ movdqa 16*7(KEYS4), XKEY4_7 /* load round 7 key */
+ aesenc XKEY3_6, XDATA3 /* 6. ENC */
+
+ I = 4
+ .rept 4
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*6)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ I = 0
+ .rept 4
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*7)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ movdqa 16*8(KEYS5), XKEY5_8 /* load round 8 key */
+ aesenc XKEY4_7, XDATA4 /* 7. ENC */
+ I = 5
+ .rept 3
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*7)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ I = 0
+ .rept 5
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*8)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ movdqa 16*9(KEYS6), XKEY6_9 /* load round 9 key */
+ aesenc XKEY5_8, XDATA5 /* 8. ENC */
+ aesenc 16*8(KEYS6), XDATA6 /* 8. ENC */
+ aesenc 16*8(KEYS7), XDATA7 /* 8. ENC */
+
+ I = 0
+ .rept 6
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*9)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ mov (OUT_OFFSET + 8*0)(ARG), TMP
+ aesenc XKEY6_9, XDATA6 /* 9. ENC */
+ aesenc 16*9(KEYS7), XDATA7 /* 9. ENC */
+
+ /* 10. ENC (last for 128bit keys) */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ .if (\key_len == AES_KEYSIZE_128)
+ aesenclast (16*10)(reg_KEY), reg_XDAT
+ .else
+ aesenc (16*10)(reg_KEY), reg_XDAT
+ .endif
+ I = (I + 1)
+ .endr
+
+ .if (\key_len != AES_KEYSIZE_128)
+ /* 11. ENC */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*11)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 12. ENC (last for 192bit key) */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ .if (\key_len == AES_KEYSIZE_192)
+ aesenclast (16*12)(reg_KEY), reg_XDAT
+ .else
+ aesenc (16*12)(reg_KEY), reg_XDAT
+ .endif
+ I = (I + 1)
+ .endr
+
+ /* for 256bit, two more rounds */
+ .if \key_len == AES_KEYSIZE_256
+
+ /* 13. ENC */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc (16*13)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 14. ENC last encode for 256bit key */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenclast (16*14)(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ .endif
+
+ .endif
+
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ MOVDQ reg_XDAT, (TMP) /* write back ciphertext */
+ I = (I + 1)
+ .if (I < 8)
+ mov (OUT_OFFSET + 8*I)(ARG), TMP
+ .endif
+ .endr
+
+ cmp IDX, LEN_AREA_OFFSET(LEN_AREA_REG)
+ je .Ldone\key_len
+
+.Lmain_loop\key_len:
+ mov (IN_OFFSET + 8*1)(ARG), TMP
+ pxor2 IN0, IDX, XDATA0 /* next block of plain text */
+ pxor2 TMP, IDX, XDATA1 /* next block of plain text */
+
+ mov (IN_OFFSET + 8*3)(ARG), TMP
+ pxor2 IN2, IDX, XDATA2 /* next block of plain text */
+ pxor2 TMP, IDX, XDATA3 /* next block of plain text */
+
+ mov (IN_OFFSET + 8*5)(ARG), TMP
+ pxor2 IN4, IDX, XDATA4 /* next block of plain text */
+ pxor2 TMP, IDX, XDATA5 /* next block of plain text */
+
+ mov (IN_OFFSET + 8*7)(ARG), TMP
+ pxor2 IN6, IDX, XDATA6 /* next block of plain text */
+ pxor2 TMP, IDX, XDATA7 /* next block of plain text */
+
+ /* 0. ARK */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ pxor 16*0(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 1. ENC */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*1(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 2. ENC */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*2(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 3. ENC */
+ aesenc XKEY0_3, XDATA0 /* 3. ENC */
+ I = 1
+ .rept 7
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*3(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 4. ENC */
+ aesenc 16*4(KEYS0), XDATA0 /* 4. ENC */
+ aesenc XKEY1_4, XDATA1 /* 4. ENC */
+ I = 2
+ .rept 6
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*4(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 5. ENC */
+ aesenc 16*5(KEYS0), XDATA0 /* 5. ENC */
+ aesenc 16*5(KEYS1), XDATA1 /* 5. ENC */
+ aesenc XKEY2_5, XDATA2 /* 5. ENC */
+
+ I = 3
+ .rept 5
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*5(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 6. ENC */
+ I = 0
+ .rept 3
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*6(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ aesenc XKEY3_6, XDATA3 /* 6. ENC */
+ I = 4
+ .rept 4
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*6(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 7. ENC */
+ I = 0
+ .rept 4
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*7(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ aesenc XKEY4_7, XDATA4 /* 7. ENC */
+ I = 5
+ .rept 3
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*7(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 8. ENC */
+ I = 0
+ .rept 5
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*8(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ aesenc XKEY5_8, XDATA5 /* 8. ENC */
+ aesenc 16*8(KEYS6), XDATA6 /* 8. ENC */
+ aesenc 16*8(KEYS7), XDATA7 /* 8. ENC */
+
+ /* 9. ENC */
+ I = 0
+ .rept 6
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*9(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ mov (OUT_OFFSET + 8*0)(ARG), TMP
+ aesenc XKEY6_9, XDATA6 /* 9. ENC */
+ aesenc 16*9(KEYS7), XDATA7 /* 9. ENC */
+
+ /* 10. ENC (last for 128 bit key) */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ .if (\key_len == AES_KEYSIZE_128)
+ aesenclast 16*10(reg_KEY), reg_XDAT
+ .else
+ aesenc 16*10(reg_KEY), reg_XDAT
+ .endif
+ I = (I + 1)
+ .endr
+
+ .if (\key_len != AES_KEYSIZE_128)
+ /* 11. ENC */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*11(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 12. last ENC for 192bit key */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ .if (\key_len == AES_KEYSIZE_192)
+ aesenclast 16*12(reg_KEY), reg_XDAT
+ .else
+ aesenc 16*12(reg_KEY), reg_XDAT
+ .endif
+ I = (I + 1)
+ .endr
+
+ .if \key_len == AES_KEYSIZE_256
+ /* for 256bit, two more rounds */
+ /* 13. ENC */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenc 16*13(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+
+ /* 14. last ENC for 256bit key */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ define_reg KEY_REG_SUFX
+ aesenclast 16*14(reg_KEY), reg_XDAT
+ I = (I + 1)
+ .endr
+ .endif
+ .endif
+
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ /* write back cipher text */
+ MOVDQ reg_XDAT, (TMP , IDX)
+ I = (I + 1)
+ .if (I < 8)
+ mov (OUT_OFFSET + 8*I)(ARG), TMP
+ .endif
+ .endr
+
+ add $16, IDX
+ cmp IDX, LEN_AREA_OFFSET(LEN_AREA_REG)
+ jne .Lmain_loop\key_len
+
+.Ldone\key_len:
+ /* update IV */
+ I = 0
+ .rept 8
+ define_reg XDATA_REG_SUFX
+ movdqa reg_XDAT, (IV_OFFSET + 16*I)(ARG)
+ I = (I + 1)
+ .endr
+
+ /* update IN and OUT */
+ movd LEN_AREA_OFFSET(LEN_AREA_REG), %xmm0
+ pshufd $0x44, %xmm0, %xmm0
+
+ I = 1
+ .rept 4
+ define_reg XMM_REG_SUFX
+ movdqa (IN_OFFSET + 16*(I-1))(ARG), reg_XMM
+ I = (I + 1)
+ .endr
+
+ paddq %xmm0, %xmm1
+ paddq %xmm0, %xmm2
+ paddq %xmm0, %xmm3
+ paddq %xmm0, %xmm4
+
+ I = 5
+ .rept 4
+ define_reg XMM_REG_SUFX
+ movdqa (OUT_OFFSET + 16*(I-5))(ARG), reg_XMM
+ I = (I + 1)
+ .endr
+
+ I = 1
+ .rept 4
+ define_reg XMM_REG_SUFX
+ movdqa reg_XMM, (IN_OFFSET + 16*(I-1))(ARG)
+ I = (I + 1)
+ .endr
+
+ paddq %xmm0, %xmm5
+ paddq %xmm0, %xmm6
+ paddq %xmm0, %xmm7
+ paddq %xmm0, %xmm8
+
+ I = 5
+ .rept 4
+ define_reg XMM_REG_SUFX
+ movdqa reg_XMM, (OUT_OFFSET + 16*(I-5))(ARG)
+ I = (I + 1)
+ .endr
+
+ mov (XMM_SAVE_SIZE + 8*0)(GPR_SAVE_REG), %rbx
+ mov (XMM_SAVE_SIZE + 8*3)(GPR_SAVE_REG), %rbp
+ mov (XMM_SAVE_SIZE + 8*4)(GPR_SAVE_REG), %r12
+ mov (XMM_SAVE_SIZE + 8*5)(GPR_SAVE_REG), %r13
+ mov (XMM_SAVE_SIZE + 8*6)(GPR_SAVE_REG), %r14
+ mov (XMM_SAVE_SIZE + 8*7)(GPR_SAVE_REG), %r15
+
+ add $STACK_SIZE, %rsp
+
+ ret
+.endm
+
+/*
+ * AES CBC encryption routine supporting 128/192/256 bit keys
+ *
+ * void aes_cbc_enc_128_x8(struct aes_cbc_args_x8 *args, u64 len);
+ * arg 1: rcx : addr of AES_ARGS_x8 structure
+ * arg 2: rdx : len (in units of 16-byte blocks)
+ * void aes_cbc_enc_192_x8(struct aes_cbc_args_x8 *args, u64 len);
+ * arg 1: rcx : addr of aes_cbc_args_x8 structure
+ * arg 2: rdx : len (in units of 16-byte blocks)
+ * void aes_cbc_enc_256_x8(struct aes_cbc_args_x8 *args, u64 len);
+ * arg 1: rcx : addr of aes_cbc_args_x8 structure
+ * arg 2: rdx : len (in units of 16-byte blocks)
+ */
+
+ENTRY(aes_cbc_enc_128_x8)
+
+ aes_cbc_enc_x8 AES_KEYSIZE_128
+
+ENDPROC(aes_cbc_enc_128_x8)
+
+ENTRY(aes_cbc_enc_192_x8)
+
+ aes_cbc_enc_x8 AES_KEYSIZE_192
+
+ENDPROC(aes_cbc_enc_192_x8)
+
+ENTRY(aes_cbc_enc_256_x8)
+
+ aes_cbc_enc_x8 AES_KEYSIZE_256
+
+ENDPROC(aes_cbc_enc_256_x8)
--
1.9.1
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