6db4831e98
Android 14
631 lines
15 KiB
ArmAsm
631 lines
15 KiB
ArmAsm
/*
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* AES modes (ECB/CBC/CTR/XTS) for PPC AES implementation
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*
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* Copyright (c) 2015 Markus Stockhausen <stockhausen@collogia.de>
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the Free
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* Software Foundation; either version 2 of the License, or (at your option)
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* any later version.
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*
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*/
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#include <asm/ppc_asm.h>
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#include "aes-spe-regs.h"
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#ifdef __BIG_ENDIAN__ /* Macros for big endian builds */
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#define LOAD_DATA(reg, off) \
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lwz reg,off(rSP); /* load with offset */
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#define SAVE_DATA(reg, off) \
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stw reg,off(rDP); /* save with offset */
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#define NEXT_BLOCK \
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addi rSP,rSP,16; /* increment pointers per bloc */ \
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addi rDP,rDP,16;
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#define LOAD_IV(reg, off) \
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lwz reg,off(rIP); /* IV loading with offset */
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#define SAVE_IV(reg, off) \
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stw reg,off(rIP); /* IV saving with offset */
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#define START_IV /* nothing to reset */
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#define CBC_DEC 16 /* CBC decrement per block */
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#define CTR_DEC 1 /* CTR decrement one byte */
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#else /* Macros for little endian */
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#define LOAD_DATA(reg, off) \
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lwbrx reg,0,rSP; /* load reversed */ \
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addi rSP,rSP,4; /* and increment pointer */
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#define SAVE_DATA(reg, off) \
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stwbrx reg,0,rDP; /* save reversed */ \
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addi rDP,rDP,4; /* and increment pointer */
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#define NEXT_BLOCK /* nothing todo */
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#define LOAD_IV(reg, off) \
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lwbrx reg,0,rIP; /* load reversed */ \
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addi rIP,rIP,4; /* and increment pointer */
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#define SAVE_IV(reg, off) \
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stwbrx reg,0,rIP; /* load reversed */ \
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addi rIP,rIP,4; /* and increment pointer */
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#define START_IV \
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subi rIP,rIP,16; /* must reset pointer */
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#define CBC_DEC 32 /* 2 blocks because of incs */
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#define CTR_DEC 17 /* 1 block because of incs */
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#endif
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#define SAVE_0_REGS
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#define LOAD_0_REGS
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#define SAVE_4_REGS \
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stw rI0,96(r1); /* save 32 bit registers */ \
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stw rI1,100(r1); \
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stw rI2,104(r1); \
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stw rI3,108(r1);
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#define LOAD_4_REGS \
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lwz rI0,96(r1); /* restore 32 bit registers */ \
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lwz rI1,100(r1); \
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lwz rI2,104(r1); \
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lwz rI3,108(r1);
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#define SAVE_8_REGS \
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SAVE_4_REGS \
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stw rG0,112(r1); /* save 32 bit registers */ \
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stw rG1,116(r1); \
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stw rG2,120(r1); \
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stw rG3,124(r1);
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#define LOAD_8_REGS \
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LOAD_4_REGS \
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lwz rG0,112(r1); /* restore 32 bit registers */ \
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lwz rG1,116(r1); \
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lwz rG2,120(r1); \
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lwz rG3,124(r1);
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#define INITIALIZE_CRYPT(tab,nr32bitregs) \
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mflr r0; \
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stwu r1,-160(r1); /* create stack frame */ \
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lis rT0,tab@h; /* en-/decryption table pointer */ \
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stw r0,8(r1); /* save link register */ \
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ori rT0,rT0,tab@l; \
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evstdw r14,16(r1); \
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mr rKS,rKP; \
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evstdw r15,24(r1); /* We must save non volatile */ \
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evstdw r16,32(r1); /* registers. Take the chance */ \
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evstdw r17,40(r1); /* and save the SPE part too */ \
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evstdw r18,48(r1); \
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evstdw r19,56(r1); \
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evstdw r20,64(r1); \
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evstdw r21,72(r1); \
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evstdw r22,80(r1); \
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evstdw r23,88(r1); \
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SAVE_##nr32bitregs##_REGS
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#define FINALIZE_CRYPT(nr32bitregs) \
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lwz r0,8(r1); \
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evldw r14,16(r1); /* restore SPE registers */ \
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evldw r15,24(r1); \
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evldw r16,32(r1); \
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evldw r17,40(r1); \
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evldw r18,48(r1); \
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evldw r19,56(r1); \
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evldw r20,64(r1); \
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evldw r21,72(r1); \
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evldw r22,80(r1); \
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evldw r23,88(r1); \
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LOAD_##nr32bitregs##_REGS \
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mtlr r0; /* restore link register */ \
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xor r0,r0,r0; \
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stw r0,16(r1); /* delete sensitive data */ \
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stw r0,24(r1); /* that we might have pushed */ \
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stw r0,32(r1); /* from other context that runs */ \
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stw r0,40(r1); /* the same code */ \
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stw r0,48(r1); \
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stw r0,56(r1); \
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stw r0,64(r1); \
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stw r0,72(r1); \
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stw r0,80(r1); \
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stw r0,88(r1); \
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addi r1,r1,160; /* cleanup stack frame */
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#define ENDIAN_SWAP(t0, t1, s0, s1) \
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rotrwi t0,s0,8; /* swap endianness for 2 GPRs */ \
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rotrwi t1,s1,8; \
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rlwimi t0,s0,8,8,15; \
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rlwimi t1,s1,8,8,15; \
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rlwimi t0,s0,8,24,31; \
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rlwimi t1,s1,8,24,31;
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#define GF128_MUL(d0, d1, d2, d3, t0) \
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li t0,0x87; /* multiplication in GF128 */ \
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cmpwi d3,-1; \
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iselgt t0,0,t0; \
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rlwimi d3,d2,0,0,0; /* propagate "carry" bits */ \
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rotlwi d3,d3,1; \
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rlwimi d2,d1,0,0,0; \
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rotlwi d2,d2,1; \
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rlwimi d1,d0,0,0,0; \
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slwi d0,d0,1; /* shift left 128 bit */ \
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rotlwi d1,d1,1; \
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xor d0,d0,t0;
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#define START_KEY(d0, d1, d2, d3) \
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lwz rW0,0(rKP); \
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mtctr rRR; \
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lwz rW1,4(rKP); \
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lwz rW2,8(rKP); \
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lwz rW3,12(rKP); \
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xor rD0,d0,rW0; \
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xor rD1,d1,rW1; \
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xor rD2,d2,rW2; \
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xor rD3,d3,rW3;
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/*
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* ppc_encrypt_aes(u8 *out, const u8 *in, u32 *key_enc,
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* u32 rounds)
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*
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* called from glue layer to encrypt a single 16 byte block
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* round values are AES128 = 4, AES192 = 5, AES256 = 6
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*
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*/
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_GLOBAL(ppc_encrypt_aes)
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INITIALIZE_CRYPT(PPC_AES_4K_ENCTAB, 0)
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LOAD_DATA(rD0, 0)
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LOAD_DATA(rD1, 4)
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LOAD_DATA(rD2, 8)
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LOAD_DATA(rD3, 12)
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START_KEY(rD0, rD1, rD2, rD3)
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bl ppc_encrypt_block
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xor rD0,rD0,rW0
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SAVE_DATA(rD0, 0)
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xor rD1,rD1,rW1
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SAVE_DATA(rD1, 4)
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xor rD2,rD2,rW2
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SAVE_DATA(rD2, 8)
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xor rD3,rD3,rW3
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SAVE_DATA(rD3, 12)
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FINALIZE_CRYPT(0)
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blr
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/*
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* ppc_decrypt_aes(u8 *out, const u8 *in, u32 *key_dec,
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* u32 rounds)
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*
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* called from glue layer to decrypt a single 16 byte block
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* round values are AES128 = 4, AES192 = 5, AES256 = 6
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*
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*/
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_GLOBAL(ppc_decrypt_aes)
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INITIALIZE_CRYPT(PPC_AES_4K_DECTAB,0)
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LOAD_DATA(rD0, 0)
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addi rT1,rT0,4096
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LOAD_DATA(rD1, 4)
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LOAD_DATA(rD2, 8)
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LOAD_DATA(rD3, 12)
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START_KEY(rD0, rD1, rD2, rD3)
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bl ppc_decrypt_block
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xor rD0,rD0,rW0
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SAVE_DATA(rD0, 0)
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xor rD1,rD1,rW1
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SAVE_DATA(rD1, 4)
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xor rD2,rD2,rW2
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SAVE_DATA(rD2, 8)
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xor rD3,rD3,rW3
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SAVE_DATA(rD3, 12)
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FINALIZE_CRYPT(0)
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blr
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/*
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* ppc_encrypt_ecb(u8 *out, const u8 *in, u32 *key_enc,
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* u32 rounds, u32 bytes);
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*
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* called from glue layer to encrypt multiple blocks via ECB
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* Bytes must be larger or equal 16 and only whole blocks are
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* processed. round values are AES128 = 4, AES192 = 5 and
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* AES256 = 6
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*
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*/
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_GLOBAL(ppc_encrypt_ecb)
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INITIALIZE_CRYPT(PPC_AES_4K_ENCTAB, 0)
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ppc_encrypt_ecb_loop:
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LOAD_DATA(rD0, 0)
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mr rKP,rKS
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LOAD_DATA(rD1, 4)
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subi rLN,rLN,16
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LOAD_DATA(rD2, 8)
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cmpwi rLN,15
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LOAD_DATA(rD3, 12)
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START_KEY(rD0, rD1, rD2, rD3)
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bl ppc_encrypt_block
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xor rD0,rD0,rW0
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SAVE_DATA(rD0, 0)
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xor rD1,rD1,rW1
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SAVE_DATA(rD1, 4)
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xor rD2,rD2,rW2
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SAVE_DATA(rD2, 8)
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xor rD3,rD3,rW3
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SAVE_DATA(rD3, 12)
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NEXT_BLOCK
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bt gt,ppc_encrypt_ecb_loop
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FINALIZE_CRYPT(0)
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blr
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/*
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* ppc_decrypt_ecb(u8 *out, const u8 *in, u32 *key_dec,
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* u32 rounds, u32 bytes);
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*
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* called from glue layer to decrypt multiple blocks via ECB
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* Bytes must be larger or equal 16 and only whole blocks are
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* processed. round values are AES128 = 4, AES192 = 5 and
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* AES256 = 6
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*
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*/
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_GLOBAL(ppc_decrypt_ecb)
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INITIALIZE_CRYPT(PPC_AES_4K_DECTAB, 0)
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addi rT1,rT0,4096
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ppc_decrypt_ecb_loop:
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LOAD_DATA(rD0, 0)
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mr rKP,rKS
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LOAD_DATA(rD1, 4)
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subi rLN,rLN,16
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LOAD_DATA(rD2, 8)
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cmpwi rLN,15
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LOAD_DATA(rD3, 12)
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START_KEY(rD0, rD1, rD2, rD3)
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bl ppc_decrypt_block
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xor rD0,rD0,rW0
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SAVE_DATA(rD0, 0)
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xor rD1,rD1,rW1
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SAVE_DATA(rD1, 4)
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xor rD2,rD2,rW2
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SAVE_DATA(rD2, 8)
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xor rD3,rD3,rW3
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SAVE_DATA(rD3, 12)
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NEXT_BLOCK
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bt gt,ppc_decrypt_ecb_loop
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FINALIZE_CRYPT(0)
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blr
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/*
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* ppc_encrypt_cbc(u8 *out, const u8 *in, u32 *key_enc,
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* 32 rounds, u32 bytes, u8 *iv);
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*
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* called from glue layer to encrypt multiple blocks via CBC
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* Bytes must be larger or equal 16 and only whole blocks are
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* processed. round values are AES128 = 4, AES192 = 5 and
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* AES256 = 6
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*
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*/
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_GLOBAL(ppc_encrypt_cbc)
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INITIALIZE_CRYPT(PPC_AES_4K_ENCTAB, 4)
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LOAD_IV(rI0, 0)
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LOAD_IV(rI1, 4)
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LOAD_IV(rI2, 8)
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LOAD_IV(rI3, 12)
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ppc_encrypt_cbc_loop:
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LOAD_DATA(rD0, 0)
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mr rKP,rKS
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LOAD_DATA(rD1, 4)
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subi rLN,rLN,16
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LOAD_DATA(rD2, 8)
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cmpwi rLN,15
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LOAD_DATA(rD3, 12)
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xor rD0,rD0,rI0
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xor rD1,rD1,rI1
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xor rD2,rD2,rI2
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xor rD3,rD3,rI3
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START_KEY(rD0, rD1, rD2, rD3)
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bl ppc_encrypt_block
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xor rI0,rD0,rW0
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SAVE_DATA(rI0, 0)
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xor rI1,rD1,rW1
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SAVE_DATA(rI1, 4)
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xor rI2,rD2,rW2
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SAVE_DATA(rI2, 8)
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xor rI3,rD3,rW3
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SAVE_DATA(rI3, 12)
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NEXT_BLOCK
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bt gt,ppc_encrypt_cbc_loop
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START_IV
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SAVE_IV(rI0, 0)
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SAVE_IV(rI1, 4)
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SAVE_IV(rI2, 8)
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SAVE_IV(rI3, 12)
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FINALIZE_CRYPT(4)
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blr
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/*
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* ppc_decrypt_cbc(u8 *out, const u8 *in, u32 *key_dec,
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* u32 rounds, u32 bytes, u8 *iv);
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*
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* called from glue layer to decrypt multiple blocks via CBC
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* round values are AES128 = 4, AES192 = 5, AES256 = 6
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*
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*/
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_GLOBAL(ppc_decrypt_cbc)
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INITIALIZE_CRYPT(PPC_AES_4K_DECTAB, 4)
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li rT1,15
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LOAD_IV(rI0, 0)
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andc rLN,rLN,rT1
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LOAD_IV(rI1, 4)
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subi rLN,rLN,16
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LOAD_IV(rI2, 8)
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add rSP,rSP,rLN /* reverse processing */
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LOAD_IV(rI3, 12)
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add rDP,rDP,rLN
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LOAD_DATA(rD0, 0)
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addi rT1,rT0,4096
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LOAD_DATA(rD1, 4)
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LOAD_DATA(rD2, 8)
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LOAD_DATA(rD3, 12)
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START_IV
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SAVE_IV(rD0, 0)
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SAVE_IV(rD1, 4)
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SAVE_IV(rD2, 8)
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cmpwi rLN,16
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SAVE_IV(rD3, 12)
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bt lt,ppc_decrypt_cbc_end
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ppc_decrypt_cbc_loop:
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mr rKP,rKS
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START_KEY(rD0, rD1, rD2, rD3)
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bl ppc_decrypt_block
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subi rLN,rLN,16
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subi rSP,rSP,CBC_DEC
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xor rW0,rD0,rW0
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LOAD_DATA(rD0, 0)
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xor rW1,rD1,rW1
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LOAD_DATA(rD1, 4)
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xor rW2,rD2,rW2
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LOAD_DATA(rD2, 8)
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xor rW3,rD3,rW3
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LOAD_DATA(rD3, 12)
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xor rW0,rW0,rD0
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SAVE_DATA(rW0, 0)
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xor rW1,rW1,rD1
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SAVE_DATA(rW1, 4)
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xor rW2,rW2,rD2
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SAVE_DATA(rW2, 8)
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xor rW3,rW3,rD3
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SAVE_DATA(rW3, 12)
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cmpwi rLN,15
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subi rDP,rDP,CBC_DEC
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bt gt,ppc_decrypt_cbc_loop
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ppc_decrypt_cbc_end:
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mr rKP,rKS
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START_KEY(rD0, rD1, rD2, rD3)
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bl ppc_decrypt_block
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xor rW0,rW0,rD0
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xor rW1,rW1,rD1
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xor rW2,rW2,rD2
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xor rW3,rW3,rD3
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xor rW0,rW0,rI0 /* decrypt with initial IV */
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SAVE_DATA(rW0, 0)
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xor rW1,rW1,rI1
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SAVE_DATA(rW1, 4)
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xor rW2,rW2,rI2
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SAVE_DATA(rW2, 8)
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xor rW3,rW3,rI3
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SAVE_DATA(rW3, 12)
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FINALIZE_CRYPT(4)
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blr
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/*
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* ppc_crypt_ctr(u8 *out, const u8 *in, u32 *key_enc,
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* u32 rounds, u32 bytes, u8 *iv);
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*
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* called from glue layer to encrypt/decrypt multiple blocks
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* via CTR. Number of bytes does not need to be a multiple of
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* 16. Round values are AES128 = 4, AES192 = 5, AES256 = 6
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*
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*/
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_GLOBAL(ppc_crypt_ctr)
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INITIALIZE_CRYPT(PPC_AES_4K_ENCTAB, 4)
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LOAD_IV(rI0, 0)
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LOAD_IV(rI1, 4)
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LOAD_IV(rI2, 8)
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cmpwi rLN,16
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LOAD_IV(rI3, 12)
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START_IV
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bt lt,ppc_crypt_ctr_partial
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ppc_crypt_ctr_loop:
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mr rKP,rKS
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START_KEY(rI0, rI1, rI2, rI3)
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bl ppc_encrypt_block
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xor rW0,rD0,rW0
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xor rW1,rD1,rW1
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xor rW2,rD2,rW2
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xor rW3,rD3,rW3
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LOAD_DATA(rD0, 0)
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subi rLN,rLN,16
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LOAD_DATA(rD1, 4)
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LOAD_DATA(rD2, 8)
|
|
LOAD_DATA(rD3, 12)
|
|
xor rD0,rD0,rW0
|
|
SAVE_DATA(rD0, 0)
|
|
xor rD1,rD1,rW1
|
|
SAVE_DATA(rD1, 4)
|
|
xor rD2,rD2,rW2
|
|
SAVE_DATA(rD2, 8)
|
|
xor rD3,rD3,rW3
|
|
SAVE_DATA(rD3, 12)
|
|
addic rI3,rI3,1 /* increase counter */
|
|
addze rI2,rI2
|
|
addze rI1,rI1
|
|
addze rI0,rI0
|
|
NEXT_BLOCK
|
|
cmpwi rLN,15
|
|
bt gt,ppc_crypt_ctr_loop
|
|
ppc_crypt_ctr_partial:
|
|
cmpwi rLN,0
|
|
bt eq,ppc_crypt_ctr_end
|
|
mr rKP,rKS
|
|
START_KEY(rI0, rI1, rI2, rI3)
|
|
bl ppc_encrypt_block
|
|
xor rW0,rD0,rW0
|
|
SAVE_IV(rW0, 0)
|
|
xor rW1,rD1,rW1
|
|
SAVE_IV(rW1, 4)
|
|
xor rW2,rD2,rW2
|
|
SAVE_IV(rW2, 8)
|
|
xor rW3,rD3,rW3
|
|
SAVE_IV(rW3, 12)
|
|
mtctr rLN
|
|
subi rIP,rIP,CTR_DEC
|
|
subi rSP,rSP,1
|
|
subi rDP,rDP,1
|
|
ppc_crypt_ctr_xorbyte:
|
|
lbzu rW4,1(rIP) /* bytewise xor for partial block */
|
|
lbzu rW5,1(rSP)
|
|
xor rW4,rW4,rW5
|
|
stbu rW4,1(rDP)
|
|
bdnz ppc_crypt_ctr_xorbyte
|
|
subf rIP,rLN,rIP
|
|
addi rIP,rIP,1
|
|
addic rI3,rI3,1
|
|
addze rI2,rI2
|
|
addze rI1,rI1
|
|
addze rI0,rI0
|
|
ppc_crypt_ctr_end:
|
|
SAVE_IV(rI0, 0)
|
|
SAVE_IV(rI1, 4)
|
|
SAVE_IV(rI2, 8)
|
|
SAVE_IV(rI3, 12)
|
|
FINALIZE_CRYPT(4)
|
|
blr
|
|
|
|
/*
|
|
* ppc_encrypt_xts(u8 *out, const u8 *in, u32 *key_enc,
|
|
* u32 rounds, u32 bytes, u8 *iv, u32 *key_twk);
|
|
*
|
|
* called from glue layer to encrypt multiple blocks via XTS
|
|
* If key_twk is given, the initial IV encryption will be
|
|
* processed too. Round values are AES128 = 4, AES192 = 5,
|
|
* AES256 = 6
|
|
*
|
|
*/
|
|
_GLOBAL(ppc_encrypt_xts)
|
|
INITIALIZE_CRYPT(PPC_AES_4K_ENCTAB, 8)
|
|
LOAD_IV(rI0, 0)
|
|
LOAD_IV(rI1, 4)
|
|
LOAD_IV(rI2, 8)
|
|
cmpwi rKT,0
|
|
LOAD_IV(rI3, 12)
|
|
bt eq,ppc_encrypt_xts_notweak
|
|
mr rKP,rKT
|
|
START_KEY(rI0, rI1, rI2, rI3)
|
|
bl ppc_encrypt_block
|
|
xor rI0,rD0,rW0
|
|
xor rI1,rD1,rW1
|
|
xor rI2,rD2,rW2
|
|
xor rI3,rD3,rW3
|
|
ppc_encrypt_xts_notweak:
|
|
ENDIAN_SWAP(rG0, rG1, rI0, rI1)
|
|
ENDIAN_SWAP(rG2, rG3, rI2, rI3)
|
|
ppc_encrypt_xts_loop:
|
|
LOAD_DATA(rD0, 0)
|
|
mr rKP,rKS
|
|
LOAD_DATA(rD1, 4)
|
|
subi rLN,rLN,16
|
|
LOAD_DATA(rD2, 8)
|
|
LOAD_DATA(rD3, 12)
|
|
xor rD0,rD0,rI0
|
|
xor rD1,rD1,rI1
|
|
xor rD2,rD2,rI2
|
|
xor rD3,rD3,rI3
|
|
START_KEY(rD0, rD1, rD2, rD3)
|
|
bl ppc_encrypt_block
|
|
xor rD0,rD0,rW0
|
|
xor rD1,rD1,rW1
|
|
xor rD2,rD2,rW2
|
|
xor rD3,rD3,rW3
|
|
xor rD0,rD0,rI0
|
|
SAVE_DATA(rD0, 0)
|
|
xor rD1,rD1,rI1
|
|
SAVE_DATA(rD1, 4)
|
|
xor rD2,rD2,rI2
|
|
SAVE_DATA(rD2, 8)
|
|
xor rD3,rD3,rI3
|
|
SAVE_DATA(rD3, 12)
|
|
GF128_MUL(rG0, rG1, rG2, rG3, rW0)
|
|
ENDIAN_SWAP(rI0, rI1, rG0, rG1)
|
|
ENDIAN_SWAP(rI2, rI3, rG2, rG3)
|
|
cmpwi rLN,0
|
|
NEXT_BLOCK
|
|
bt gt,ppc_encrypt_xts_loop
|
|
START_IV
|
|
SAVE_IV(rI0, 0)
|
|
SAVE_IV(rI1, 4)
|
|
SAVE_IV(rI2, 8)
|
|
SAVE_IV(rI3, 12)
|
|
FINALIZE_CRYPT(8)
|
|
blr
|
|
|
|
/*
|
|
* ppc_decrypt_xts(u8 *out, const u8 *in, u32 *key_dec,
|
|
* u32 rounds, u32 blocks, u8 *iv, u32 *key_twk);
|
|
*
|
|
* called from glue layer to decrypt multiple blocks via XTS
|
|
* If key_twk is given, the initial IV encryption will be
|
|
* processed too. Round values are AES128 = 4, AES192 = 5,
|
|
* AES256 = 6
|
|
*
|
|
*/
|
|
_GLOBAL(ppc_decrypt_xts)
|
|
INITIALIZE_CRYPT(PPC_AES_4K_DECTAB, 8)
|
|
LOAD_IV(rI0, 0)
|
|
addi rT1,rT0,4096
|
|
LOAD_IV(rI1, 4)
|
|
LOAD_IV(rI2, 8)
|
|
cmpwi rKT,0
|
|
LOAD_IV(rI3, 12)
|
|
bt eq,ppc_decrypt_xts_notweak
|
|
subi rT0,rT0,4096
|
|
mr rKP,rKT
|
|
START_KEY(rI0, rI1, rI2, rI3)
|
|
bl ppc_encrypt_block
|
|
xor rI0,rD0,rW0
|
|
xor rI1,rD1,rW1
|
|
xor rI2,rD2,rW2
|
|
xor rI3,rD3,rW3
|
|
addi rT0,rT0,4096
|
|
ppc_decrypt_xts_notweak:
|
|
ENDIAN_SWAP(rG0, rG1, rI0, rI1)
|
|
ENDIAN_SWAP(rG2, rG3, rI2, rI3)
|
|
ppc_decrypt_xts_loop:
|
|
LOAD_DATA(rD0, 0)
|
|
mr rKP,rKS
|
|
LOAD_DATA(rD1, 4)
|
|
subi rLN,rLN,16
|
|
LOAD_DATA(rD2, 8)
|
|
LOAD_DATA(rD3, 12)
|
|
xor rD0,rD0,rI0
|
|
xor rD1,rD1,rI1
|
|
xor rD2,rD2,rI2
|
|
xor rD3,rD3,rI3
|
|
START_KEY(rD0, rD1, rD2, rD3)
|
|
bl ppc_decrypt_block
|
|
xor rD0,rD0,rW0
|
|
xor rD1,rD1,rW1
|
|
xor rD2,rD2,rW2
|
|
xor rD3,rD3,rW3
|
|
xor rD0,rD0,rI0
|
|
SAVE_DATA(rD0, 0)
|
|
xor rD1,rD1,rI1
|
|
SAVE_DATA(rD1, 4)
|
|
xor rD2,rD2,rI2
|
|
SAVE_DATA(rD2, 8)
|
|
xor rD3,rD3,rI3
|
|
SAVE_DATA(rD3, 12)
|
|
GF128_MUL(rG0, rG1, rG2, rG3, rW0)
|
|
ENDIAN_SWAP(rI0, rI1, rG0, rG1)
|
|
ENDIAN_SWAP(rI2, rI3, rG2, rG3)
|
|
cmpwi rLN,0
|
|
NEXT_BLOCK
|
|
bt gt,ppc_decrypt_xts_loop
|
|
START_IV
|
|
SAVE_IV(rI0, 0)
|
|
SAVE_IV(rI1, 4)
|
|
SAVE_IV(rI2, 8)
|
|
SAVE_IV(rI3, 12)
|
|
FINALIZE_CRYPT(8)
|
|
blr
|