crypto: twofish/avx - avoid using temporary stack buffers
Introduce new assembler functions to avoid use temporary stack buffers in glue code. This also allows use of vector instructions for xoring output in CTR and CBC modes and construction of IVs for CTR mode. ECB mode sees ~0.2% decrease in speed because added one extra function call. CBC mode decryption and CTR mode benefit from vector operations and gain ~3%. Signed-off-by: Jussi Kivilinna <jussi.kivilinna@mbnet.fi> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
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@ -23,7 +23,16 @@
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*
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*/
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#include "glue_helper-asm-avx.S"
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.file "twofish-avx-x86_64-asm_64.S"
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.data
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.align 16
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.Lbswap128_mask:
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.byte 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0
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.text
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/* structure of crypto context */
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@ -217,69 +226,45 @@
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vpunpcklqdq x3, t2, x2; \
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vpunpckhqdq x3, t2, x3;
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#define inpack_blocks(in, x0, x1, x2, x3, wkey, t0, t1, t2) \
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vpxor (0*4*4)(in), wkey, x0; \
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vpxor (1*4*4)(in), wkey, x1; \
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vpxor (2*4*4)(in), wkey, x2; \
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vpxor (3*4*4)(in), wkey, x3; \
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#define inpack_blocks(x0, x1, x2, x3, wkey, t0, t1, t2) \
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vpxor x0, wkey, x0; \
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vpxor x1, wkey, x1; \
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vpxor x2, wkey, x2; \
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vpxor x3, wkey, x3; \
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\
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transpose_4x4(x0, x1, x2, x3, t0, t1, t2)
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#define outunpack_blocks(out, x0, x1, x2, x3, wkey, t0, t1, t2) \
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#define outunpack_blocks(x0, x1, x2, x3, wkey, t0, t1, t2) \
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transpose_4x4(x0, x1, x2, x3, t0, t1, t2) \
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\
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vpxor x0, wkey, x0; \
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vmovdqu x0, (0*4*4)(out); \
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vpxor x1, wkey, x1; \
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vmovdqu x1, (1*4*4)(out); \
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vpxor x2, wkey, x2; \
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vmovdqu x2, (2*4*4)(out); \
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vpxor x3, wkey, x3; \
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vmovdqu x3, (3*4*4)(out);
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#define outunpack_xor_blocks(out, x0, x1, x2, x3, wkey, t0, t1, t2) \
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transpose_4x4(x0, x1, x2, x3, t0, t1, t2) \
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\
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vpxor x0, wkey, x0; \
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vpxor (0*4*4)(out), x0, x0; \
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vmovdqu x0, (0*4*4)(out); \
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vpxor x1, wkey, x1; \
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vpxor (1*4*4)(out), x1, x1; \
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vmovdqu x1, (1*4*4)(out); \
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vpxor x2, wkey, x2; \
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vpxor (2*4*4)(out), x2, x2; \
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vmovdqu x2, (2*4*4)(out); \
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vpxor x3, wkey, x3; \
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vpxor (3*4*4)(out), x3, x3; \
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vmovdqu x3, (3*4*4)(out);
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vpxor x0, wkey, x0; \
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vpxor x1, wkey, x1; \
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vpxor x2, wkey, x2; \
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vpxor x3, wkey, x3;
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.align 8
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.global __twofish_enc_blk_8way
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.type __twofish_enc_blk_8way,@function;
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.type __twofish_enc_blk8,@function;
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__twofish_enc_blk_8way:
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__twofish_enc_blk8:
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src
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* %rcx: bool, if true: xor output
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* RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2: blocks
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* output:
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* RC1, RD1, RA1, RB1, RC2, RD2, RA2, RB2: encrypted blocks
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*/
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vmovdqu w(CTX), RK1;
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pushq %rbp;
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pushq %rbx;
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pushq %rcx;
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vmovdqu w(CTX), RK1;
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leaq (4*4*4)(%rdx), %rax;
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inpack_blocks(%rdx, RA1, RB1, RC1, RD1, RK1, RX0, RY0, RK2);
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inpack_blocks(RA1, RB1, RC1, RD1, RK1, RX0, RY0, RK2);
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preload_rgi(RA1);
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rotate_1l(RD1);
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inpack_blocks(%rax, RA2, RB2, RC2, RD2, RK1, RX0, RY0, RK2);
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inpack_blocks(RA2, RB2, RC2, RD2, RK1, RX0, RY0, RK2);
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rotate_1l(RD2);
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movq %rsi, %r11;
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encrypt_cycle(0);
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encrypt_cycle(1);
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encrypt_cycle(2);
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@ -295,47 +280,33 @@ __twofish_enc_blk_8way:
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popq %rbx;
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popq %rbp;
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leaq (4*4*4)(%r11), %rax;
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testb %cl, %cl;
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jnz __enc_xor8;
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outunpack_blocks(%r11, RC1, RD1, RA1, RB1, RK1, RX0, RY0, RK2);
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outunpack_blocks(%rax, RC2, RD2, RA2, RB2, RK1, RX0, RY0, RK2);
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ret;
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__enc_xor8:
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outunpack_xor_blocks(%r11, RC1, RD1, RA1, RB1, RK1, RX0, RY0, RK2);
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outunpack_xor_blocks(%rax, RC2, RD2, RA2, RB2, RK1, RX0, RY0, RK2);
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outunpack_blocks(RC1, RD1, RA1, RB1, RK1, RX0, RY0, RK2);
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outunpack_blocks(RC2, RD2, RA2, RB2, RK1, RX0, RY0, RK2);
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ret;
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.align 8
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.global twofish_dec_blk_8way
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.type twofish_dec_blk_8way,@function;
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.type __twofish_dec_blk8,@function;
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twofish_dec_blk_8way:
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__twofish_dec_blk8:
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src
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* RC1, RD1, RA1, RB1, RC2, RD2, RA2, RB2: encrypted blocks
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* output:
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* RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2: decrypted blocks
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*/
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vmovdqu (w+4*4)(CTX), RK1;
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pushq %rbp;
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pushq %rbx;
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vmovdqu (w+4*4)(CTX), RK1;
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leaq (4*4*4)(%rdx), %rax;
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inpack_blocks(%rdx, RC1, RD1, RA1, RB1, RK1, RX0, RY0, RK2);
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inpack_blocks(RC1, RD1, RA1, RB1, RK1, RX0, RY0, RK2);
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preload_rgi(RC1);
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rotate_1l(RA1);
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inpack_blocks(%rax, RC2, RD2, RA2, RB2, RK1, RX0, RY0, RK2);
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inpack_blocks(RC2, RD2, RA2, RB2, RK1, RX0, RY0, RK2);
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rotate_1l(RA2);
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movq %rsi, %r11;
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decrypt_cycle(7);
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decrypt_cycle(6);
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decrypt_cycle(5);
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@ -350,8 +321,103 @@ twofish_dec_blk_8way:
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popq %rbx;
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popq %rbp;
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leaq (4*4*4)(%r11), %rax;
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outunpack_blocks(%r11, RA1, RB1, RC1, RD1, RK1, RX0, RY0, RK2);
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outunpack_blocks(%rax, RA2, RB2, RC2, RD2, RK1, RX0, RY0, RK2);
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outunpack_blocks(RA1, RB1, RC1, RD1, RK1, RX0, RY0, RK2);
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outunpack_blocks(RA2, RB2, RC2, RD2, RK1, RX0, RY0, RK2);
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ret;
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.align 8
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.global twofish_ecb_enc_8way
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.type twofish_ecb_enc_8way,@function;
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twofish_ecb_enc_8way:
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src
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*/
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movq %rsi, %r11;
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load_8way(%rdx, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2);
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call __twofish_enc_blk8;
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store_8way(%r11, RC1, RD1, RA1, RB1, RC2, RD2, RA2, RB2);
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ret;
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.align 8
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.global twofish_ecb_dec_8way
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.type twofish_ecb_dec_8way,@function;
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twofish_ecb_dec_8way:
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src
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*/
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movq %rsi, %r11;
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load_8way(%rdx, RC1, RD1, RA1, RB1, RC2, RD2, RA2, RB2);
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call __twofish_dec_blk8;
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store_8way(%r11, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2);
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ret;
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.align 8
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.global twofish_cbc_dec_8way
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.type twofish_cbc_dec_8way,@function;
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twofish_cbc_dec_8way:
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src
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*/
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pushq %r12;
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movq %rsi, %r11;
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movq %rdx, %r12;
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load_8way(%rdx, RC1, RD1, RA1, RB1, RC2, RD2, RA2, RB2);
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call __twofish_dec_blk8;
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store_cbc_8way(%r12, %r11, RA1, RB1, RC1, RD1, RA2, RB2, RC2, RD2);
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popq %r12;
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ret;
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.align 8
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.global twofish_ctr_8way
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.type twofish_ctr_8way,@function;
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twofish_ctr_8way:
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/* input:
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* %rdi: ctx, CTX
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* %rsi: dst
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* %rdx: src
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* %rcx: iv (little endian, 128bit)
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*/
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pushq %r12;
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movq %rsi, %r11;
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movq %rdx, %r12;
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load_ctr_8way(%rcx, .Lbswap128_mask, RA1, RB1, RC1, RD1, RA2, RB2, RC2,
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RD2, RX0, RX1, RY0);
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call __twofish_enc_blk8;
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store_ctr_8way(%r12, %r11, RC1, RD1, RA1, RB1, RC2, RD2, RA2, RB2);
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popq %r12;
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ret;
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@ -45,66 +45,23 @@
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#define TWOFISH_PARALLEL_BLOCKS 8
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/* 8-way parallel cipher functions */
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asmlinkage void twofish_ecb_enc_8way(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src);
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asmlinkage void twofish_ecb_dec_8way(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src);
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asmlinkage void twofish_cbc_dec_8way(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src);
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asmlinkage void twofish_ctr_8way(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src, le128 *iv);
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static inline void twofish_enc_blk_3way(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src)
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{
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__twofish_enc_blk_3way(ctx, dst, src, false);
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}
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/* 8-way parallel cipher functions */
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asmlinkage void __twofish_enc_blk_8way(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src, bool xor);
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asmlinkage void twofish_dec_blk_8way(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src);
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static inline void twofish_enc_blk_xway(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src)
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{
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__twofish_enc_blk_8way(ctx, dst, src, false);
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}
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static inline void twofish_enc_blk_xway_xor(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src)
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{
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__twofish_enc_blk_8way(ctx, dst, src, true);
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}
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static inline void twofish_dec_blk_xway(struct twofish_ctx *ctx, u8 *dst,
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const u8 *src)
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{
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twofish_dec_blk_8way(ctx, dst, src);
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}
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static void twofish_dec_blk_cbc_xway(void *ctx, u128 *dst, const u128 *src)
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{
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u128 ivs[TWOFISH_PARALLEL_BLOCKS - 1];
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unsigned int j;
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for (j = 0; j < TWOFISH_PARALLEL_BLOCKS - 1; j++)
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ivs[j] = src[j];
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twofish_dec_blk_xway(ctx, (u8 *)dst, (u8 *)src);
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for (j = 0; j < TWOFISH_PARALLEL_BLOCKS - 1; j++)
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u128_xor(dst + (j + 1), dst + (j + 1), ivs + j);
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}
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static void twofish_enc_blk_ctr_xway(void *ctx, u128 *dst, const u128 *src,
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le128 *iv)
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{
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be128 ctrblks[TWOFISH_PARALLEL_BLOCKS];
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unsigned int i;
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for (i = 0; i < TWOFISH_PARALLEL_BLOCKS; i++) {
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if (dst != src)
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dst[i] = src[i];
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le128_to_be128(&ctrblks[i], iv);
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le128_inc(iv);
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}
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twofish_enc_blk_xway_xor(ctx, (u8 *)dst, (u8 *)ctrblks);
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}
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static const struct common_glue_ctx twofish_enc = {
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.num_funcs = 3,
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@ -112,7 +69,7 @@ static const struct common_glue_ctx twofish_enc = {
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.funcs = { {
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.num_blocks = TWOFISH_PARALLEL_BLOCKS,
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.fn_u = { .ecb = GLUE_FUNC_CAST(twofish_enc_blk_xway) }
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.fn_u = { .ecb = GLUE_FUNC_CAST(twofish_ecb_enc_8way) }
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}, {
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.num_blocks = 3,
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.fn_u = { .ecb = GLUE_FUNC_CAST(twofish_enc_blk_3way) }
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@ -128,7 +85,7 @@ static const struct common_glue_ctx twofish_ctr = {
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.funcs = { {
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.num_blocks = TWOFISH_PARALLEL_BLOCKS,
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.fn_u = { .ctr = GLUE_CTR_FUNC_CAST(twofish_enc_blk_ctr_xway) }
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.fn_u = { .ctr = GLUE_CTR_FUNC_CAST(twofish_ctr_8way) }
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}, {
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.num_blocks = 3,
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.fn_u = { .ctr = GLUE_CTR_FUNC_CAST(twofish_enc_blk_ctr_3way) }
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@ -144,7 +101,7 @@ static const struct common_glue_ctx twofish_dec = {
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.funcs = { {
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.num_blocks = TWOFISH_PARALLEL_BLOCKS,
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.fn_u = { .ecb = GLUE_FUNC_CAST(twofish_dec_blk_xway) }
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.fn_u = { .ecb = GLUE_FUNC_CAST(twofish_ecb_dec_8way) }
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}, {
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.num_blocks = 3,
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.fn_u = { .ecb = GLUE_FUNC_CAST(twofish_dec_blk_3way) }
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@ -160,7 +117,7 @@ static const struct common_glue_ctx twofish_dec_cbc = {
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.funcs = { {
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.num_blocks = TWOFISH_PARALLEL_BLOCKS,
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.fn_u = { .cbc = GLUE_CBC_FUNC_CAST(twofish_dec_blk_cbc_xway) }
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.fn_u = { .cbc = GLUE_CBC_FUNC_CAST(twofish_cbc_dec_8way) }
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}, {
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.num_blocks = 3,
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.fn_u = { .cbc = GLUE_CBC_FUNC_CAST(twofish_dec_blk_cbc_3way) }
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@ -227,7 +184,7 @@ static void encrypt_callback(void *priv, u8 *srcdst, unsigned int nbytes)
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ctx->fpu_enabled = twofish_fpu_begin(ctx->fpu_enabled, nbytes);
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if (nbytes == bsize * TWOFISH_PARALLEL_BLOCKS) {
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twofish_enc_blk_xway(ctx->ctx, srcdst, srcdst);
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twofish_ecb_enc_8way(ctx->ctx, srcdst, srcdst);
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return;
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}
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@ -249,7 +206,7 @@ static void decrypt_callback(void *priv, u8 *srcdst, unsigned int nbytes)
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ctx->fpu_enabled = twofish_fpu_begin(ctx->fpu_enabled, nbytes);
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if (nbytes == bsize * TWOFISH_PARALLEL_BLOCKS) {
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twofish_dec_blk_xway(ctx->ctx, srcdst, srcdst);
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twofish_ecb_dec_8way(ctx->ctx, srcdst, srcdst);
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return;
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}
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