sparkle256f_v7m.S

///////////////////////////////////////////////////////////////////////////////
// sparkle256f_v7m.S: Speed-optimized ARMv7-M implementation of SPARKLE256.  //
// This file is part of the SPARKLE submission to NIST's LW Crypto Project.  //
// Version 1.1.2 (2020-10-30), see <http://www.cryptolux.org/> for updates.  //
// Authors: The SPARKLE Group (C. Beierle, A. Biryukov, L. Cardoso dos       //
// Santos, J. Groszschaedl, L. Perrin, A. Udovenko, V. Velichkov, Q. Wang).  //
// License: GPLv3 (see LICENSE file), other licenses available upon request. //
// Copyright (C) 2019-2020 University of Luxembourg <http://www.uni.lu/>.    //
// ------------------------------------------------------------------------- //
// This program is free software: you can redistribute it and/or modify it   //
// under the terms of the GNU General Public License as published by the     //
// Free Software Foundation, either version 3 of the License, or (at your    //
// option) any later version. 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. You should have received a   //
// copy of the GNU General Public License along with this program. If not,   //
// see <http://www.gnu.org/licenses/>.                                       //
///////////////////////////////////////////////////////////////////////////////


.syntax unified
.thumb
.arch armv7-m
.eabi_attribute Tag_ABI_align_preserved, 1


.section .text
.balign 4


.global sparkle256_arm


///////////////////////////////////////////////////////////////////////////////
//////////////////////// REGISTER NAMES AND CONSTANTS /////////////////////////
///////////////////////////////////////////////////////////////////////////////

// register sptr holds the start address of array 'state'
sptr .req r0
// register step holds the number of steps (parameter 'steps')
step .req r1
// registers c0w to c7w hold round constants from array 'rcon'
c0w .req r2
c1w .req r3
c2w .req r4
c3w .req r5
c4w .req r1
c5w .req r1
c6w .req r1
c7w .req r1
// registers tmpx, tmpy hold temporary values
tmpx .req r1
tmpy .req r1
// registers x0w to y3w hold 8 words from array 'state'
x0w .req r6
y0w .req r7
x1w .req r8
y1w .req r9
x2w .req r10
y2w .req r11
x3w .req r12
y3w .req lr

// Round constants
.equ .Lrc0, 0xB7E15162
.equ .Lrc1, 0xBF715880
.equ .Lrc2, 0x38B4DA56
.equ .Lrc3, 0x324E7738
.equ .Lrc4, 0xBB1185EB
.equ .Lrc5, 0x4F7C7B57
.equ .Lrc6, 0xCFBFA1C8
.equ .Lrc7, 0xC2B3293D


///////////////////////////////////////////////////////////////////////////////
//////////////////////////// MACROS FOR SPARKLE256 ////////////////////////////
///////////////////////////////////////////////////////////////////////////////

.macro PROLOGUE_256
    push    {r4-r12,lr}
    ldmia   sptr, {x0w-x3w,y3w}
    push.w  {step}
    MOV32   c0w, .Lrc0
    MOV32   c1w, .Lrc1
    MOV32   c2w, .Lrc2
    MOV32   c3w, .Lrc3
.endm

.macro EPILOGUE_256
    stmia.w sptr!, {x1w,y1w}
    stmia.w sptr!, {x0w,y0w,x3w,y3w}
    stmia.w sptr!, {x2w,y2w}
    pop     {r4-r12,pc}
.endm

.macro RET_SLIM_256
    pop     {step}
    cmp     step, #7
    bgt.w   .Lbig_256
    stmia.w sptr!, {x2w-x3w,y3w}
    stmia.w sptr!, {x1w,y1w}
    stmia.w sptr!, {x0w,y0w}
    pop     {r4-r12,pc}
.Lbig_256:
.endm

.macro ARX_BOX xi:req, yi:req, ci:req
    add     \xi, \xi, \yi, ror #31
    eor     \yi, \yi, \xi, ror #24
    eor     \xi, \xi, \ci
    add     \xi, \xi, \yi, ror #17
    eor     \yi, \yi, \xi, ror #17
    eors    \xi, \xi, \ci
    adds    \xi, \xi, \yi
    eor     \yi, \yi, \xi, ror #31
    eor     \xi, \xi, \ci
    add     \xi, \xi, \yi, ror #24
    eor     \yi, \yi, \xi, ror #16
    eor     \xi, \xi, \ci
.endm

.macro MOV32 ri:req, ci:req
    movw    \ri, #:lower16:\ci
    movt    \ri, #:upper16:\ci
.endm

.macro LL_TMPX xi:req, xj:req
    eor     tmpx, \xi, \xj
    eor     tmpx, tmpx, tmpx, lsl #16
.endm
    
.macro LL_TMPY yi:req, yj:req
    eor     tmpy, \yi, \yj
    eor     tmpy, tmpy, tmpy, lsl #16
.endm
    
.macro LL_ADDX xi:req, xj:req
    eor     \xi, \xi, tmpy, ror #16
    eor     \xi, \xi, \xj
.endm
    
.macro LL_ADDY yi:req, yj:req
    eor     \yi, \yi, tmpx, ror #16
    eor     \yi, \yi, \yj
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 0 OF SPARKLE256 (USING ROUND-CONSTANT RC0) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_00_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC0
    eor     \y0, \y0, c0w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 1 OF SPARKLE256 (USING ROUND-CONSTANT RC1) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_01_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC1
    eor    \y1, \y1, #1
    eor    \y0, \y0, c1w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 2 OF SPARKLE256 (USING ROUND-CONSTANT RC2) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_02_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC2
    eor    \y1, \y1, #2
    eor    \y0, \y0, c2w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 3 OF SPARKLE256 (USING ROUND-CONSTANT RC3) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_03_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC3
    eor    \y1, \y1, #3
    eor    \y0, \y0, c3w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 4 OF SPARKLE256 (USING ROUND-CONSTANT RC4) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_04_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC4
    eor    \y1, \y1, #4
    MOV32  c4w, .Lrc4
    eor    \y0, \y0, c4w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 5 OF SPARKLE256 (USING ROUND-CONSTANT RC5) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_05_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC5
    eor     \y1, \y1, #5
    MOV32   c5w, .Lrc5
    eor     \y0, \y0, c5w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 6 OF SPARKLE256 (USING ROUND-CONSTANT RC6) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_06_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC6
    eor     \y1, \y1, #6
    MOV32   c6w, .Lrc6
    eor     \y0, \y0, c6w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 7 OF SPARKLE256 (USING ROUND-CONSTANT RC7) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_07_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC7
    eor     \y1, \y1, #7
    MOV32   c7w, .Lrc7
    eor     \y0, \y0, c7w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 8 OF SPARKLE256 (USING ROUND-CONSTANT RC0) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_08_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC0
    eor     \y1, \y1, #8
    eor     \y0, \y0, c0w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
//// MACRO FOR PERMUTATION-STEP 9 OF SPARKLE256 (USING ROUND-CONSTANT RC1) ////
///////////////////////////////////////////////////////////////////////////////

.macro PERM_STEP_09_256 x0:req, y0:req, x1:req, y1:req, x2:req, y2:req, \
                        x3:req, y3:req
    // Addition RC1
    eor     \y1, \y1, #9
    eor     \y0, \y0, c1w
    // ARXBOX Layer
    ARX_BOX \x0, \y0, c0w
    ARX_BOX \x1, \y1, c1w
    ARX_BOX \x2, \y2, c2w
    ARX_BOX \x3, \y3, c3w
    // Linear Layer
    LL_TMPX \x0, \x1
    LL_ADDY \y2, \y0
    LL_ADDY \y3, \y1
    LL_TMPY \y0, \y1
    LL_ADDX \x2, \x0
    LL_ADDX \x3, \x1
.endm


///////////////////////////////////////////////////////////////////////////////
/////////////////// SPARKLE256 PERMUTATION (FULLY UNROLLED) ///////////////////
///////////////////////////////////////////////////////////////////////////////

// Function prototype:
// -------------------
// void sparkle256_arm(uint32_t *state, int steps)
//
// Parameters:
// -----------
// state: pointer to an uint32_t-array containing the 8 state words
// steps: number of steps (must be either 7 or 10)
//
// Return value:
// -------------
// None

.type sparkle256_arm, %function
.func sparkle256_arm
sparkle256_arm:
    PROLOGUE_256
    PERM_STEP_00_256 x0w, y0w, x1w, y1w, x2w, y2w, x3w, y3w
    PERM_STEP_01_256 x3w, y3w, x2w, y2w, x0w, y0w, x1w, y1w
    PERM_STEP_02_256 x1w, y1w, x0w, y0w, x3w, y3w, x2w, y2w
    PERM_STEP_03_256 x2w, y2w, x3w, y3w, x1w, y1w, x0w, y0w
    PERM_STEP_04_256 x0w, y0w, x1w, y1w, x2w, y2w, x3w, y3w
    PERM_STEP_05_256 x3w, y3w, x2w, y2w, x0w, y0w, x1w, y1w
    PERM_STEP_06_256 x1w, y1w, x0w, y0w, x3w, y3w, x2w, y2w
    RET_SLIM_256 // return when the number of steps is slim
    PERM_STEP_07_256 x2w, y2w, x3w, y3w, x1w, y1w, x0w, y0w
    PERM_STEP_08_256 x0w, y0w, x1w, y1w, x2w, y2w, x3w, y3w
    PERM_STEP_09_256 x3w, y3w, x2w, y2w, x0w, y0w, x1w, y1w
    EPILOGUE_256
.endfunc


.size sparkle256_arm, .-sparkle256_arm


.end