/*-*- mode:c;indent-tabs-mode:nil;c-basic-offset:4;tab-width:4;coding:utf-8 -*-│ │vi: set net ft=c ts=2 sts=2 sw=2 fenc=utf-8 :vi│ ╞══════════════════════════════════════════════════════════════════════════════╡ │ Copyright 2021 Justine Alexandra Roberts Tunney │ │ │ │ Permission to use, copy, modify, and/or distribute this software for │ │ any purpose with or without fee is hereby granted, provided that the │ │ above copyright notice and this permission notice appear in all copies. │ │ │ │ THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL │ │ WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED │ │ WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE │ │ AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL │ │ DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR │ │ PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER │ │ TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR │ │ PERFORMANCE OF THIS SOFTWARE. │ ╚─────────────────────────────────────────────────────────────────────────────*/ #include "libc/dce.h" #include "libc/intrin/asan.internal.h" #include "libc/log/check.h" #include "libc/nexgen32e/x86feature.h" #include "libc/runtime/gc.internal.h" #include "libc/runtime/runtime.h" #include "third_party/mbedtls/bignum_internal.h" #include "third_party/mbedtls/ecp.h" #include "third_party/mbedtls/ecp_internal.h" #include "third_party/mbedtls/error.h" #include "third_party/mbedtls/math.h" #include "third_party/mbedtls/profile.h" /* clang-format off */ static bool mbedtls_p384_isz( uint64_t p[6] ) { return( !p[0] & !p[1] & !p[2] & !p[3] & !p[4] & !p[5] ); } static bool mbedtls_p384_gte( uint64_t p[7] ) { return( (((int64_t)p[6] > 0) | (!p[6] & ((p[5] > 0xffffffffffffffff) | ((p[5] == 0xffffffffffffffff) & ((p[4] > 0xffffffffffffffff) | ((p[4] == 0xffffffffffffffff) & ((p[3] > 0xffffffffffffffff) | ((p[3] == 0xffffffffffffffff) & ((p[2] > 0xfffffffffffffffe) | ((p[2] == 0xfffffffffffffffe) & ((p[1] > 0xffffffff00000000) | ((p[1] == 0xffffffff00000000) & ((p[0] > 0x00000000ffffffff) | (p[0] == 0x00000000ffffffff)))))))))))))) ); } static int mbedtls_p384_cmp( const uint64_t a[7], const uint64_t b[7] ) { if( (int64_t)a[6] < (int64_t)b[6] ) return( -1 ); if( (int64_t)a[6] > (int64_t)b[6] ) return( +1 ); if( a[5] < b[5] ) return( -1 ); if( a[5] > b[5] ) return( +1 ); if( a[4] < b[4] ) return( -1 ); if( a[4] > b[4] ) return( +1 ); if( a[3] < b[3] ) return( -1 ); if( a[3] > b[3] ) return( +1 ); if( a[2] < b[2] ) return( -1 ); if( a[2] > b[2] ) return( +1 ); if( a[1] < b[1] ) return( -1 ); if( a[1] > b[1] ) return( +1 ); if( a[0] < b[0] ) return( -1 ); if( a[0] > b[0] ) return( +1 ); return( 0 ); } static inline void mbedtls_p384_red( uint64_t p[7] ) { #if defined(__x86_64__) && !defined(__STRICT_ANSI__) asm("subq\t%1,%0\n\t" "sbbq\t%2,8+%0\n\t" "sbbq\t%3,16+%0\n\t" "sbbq\t%4,24+%0\n\t" "sbbq\t%4,32+%0\n\t" "sbbq\t%4,40+%0\n\t" "sbbq\t$0,48+%0" : "+o"(*p) : "r"(0x00000000ffffffffl), "r"(0xffffffff00000000), "i"(0xfffffffffffffffel), "i"(0xffffffffffffffff) : "memory", "cc"); #else uint64_t c; SBB( p[0], p[0], 0x00000000ffffffff, 0, c ); SBB( p[1], p[1], 0xffffffff00000000, c, c ); SBB( p[2], p[2], 0xfffffffffffffffe, c, c ); SBB( p[3], p[3], 0xffffffffffffffff, c, c ); SBB( p[4], p[4], 0xffffffffffffffff, c, c ); SBB( p[5], p[5], 0xffffffffffffffff, c, c ); SBB( p[6], p[6], 0, c, c ); #endif } static inline void mbedtls_p384_gro( uint64_t p[7] ) { #if defined(__x86_64__) && !defined(__STRICT_ANSI__) asm("addq\t%1,%0\n\t" "adcq\t%2,8+%0\n\t" "adcq\t%3,16+%0\n\t" "adcq\t%4,24+%0\n\t" "adcq\t%4,32+%0\n\t" "adcq\t%4,40+%0\n\t" "adcq\t$0,48+%0" : "+o"(*p) : "r"(0x00000000ffffffffl), "r"(0xffffffff00000000), "i"(0xfffffffffffffffel), "i"(0xffffffffffffffff) : "memory", "cc"); #else uint64_t c; ADC( p[0], p[0], 0x00000000ffffffff, 0, c ); ADC( p[1], p[1], 0xffffffff00000000, c, c ); ADC( p[2], p[2], 0xfffffffffffffffe, c, c ); ADC( p[3], p[3], 0xffffffffffffffff, c, c ); ADC( p[4], p[4], 0xffffffffffffffff, c, c ); ADC( p[5], p[5], 0xffffffffffffffff, c, c ); ADC( p[6], p[6], 0, c, c ); #endif } static inline void mbedtls_p384_rum( uint64_t p[7] ) { while( mbedtls_p384_gte( p ) ) mbedtls_p384_red( p ); } void mbedtls_p384_mod( uint64_t X[12] ) { secp384r1(X); if( (int64_t)X[6] < 0 ){ do { mbedtls_p384_gro(X); } while( (int64_t)X[6] < 0 ); } else { mbedtls_p384_rum(X); } } static inline void mbedtls_p384_sar( uint64_t p[7] ) { p[0] = p[0] >> 1 | p[1] << 63; p[1] = p[1] >> 1 | p[2] << 63; p[2] = p[2] >> 1 | p[3] << 63; p[3] = p[3] >> 1 | p[4] << 63; p[4] = p[4] >> 1 | p[5] << 63; p[5] = p[5] >> 1 | p[6] << 63; p[6] = (int64_t)p[6] >> 1; } static inline void mbedtls_p384_shl( uint64_t p[7] ) { p[6] = p[5] >> 63; p[5] = p[5] << 1 | p[4] >> 63; p[4] = p[4] << 1 | p[3] >> 63; p[3] = p[3] << 1 | p[2] >> 63; p[2] = p[2] << 1 | p[1] >> 63; p[1] = p[1] << 1 | p[0] >> 63; p[0] = p[0] << 1; mbedtls_p384_rum( p ); } static void mbedtls_p384_mul( uint64_t X[12], const uint64_t A[6], size_t n, const uint64_t B[6], size_t m ) { if( n == 6 && m == 6 && X86_HAVE(ADX) && X86_HAVE(BMI2) ) { Mul6x6Adx( X, A, B ); } else { if( A == X ) A = gc( memcpy( malloc( 6 * 8 ), A, 6 * 8 ) ); if( B == X ) B = gc( memcpy( malloc( 6 * 8 ), B, 6 * 8 ) ); Mul( X, A, n, B, m ); mbedtls_platform_zeroize( X + n + m, (12 - n - m) * 8 ); } mbedtls_p384_mod( X ); } static void mbedtls_p384_plu( uint64_t A[7], const uint64_t B[7] ) { #if defined(__x86_64__) && !defined(__STRICT_ANSI__) asm("mov\t%1,%%rax\n\t" "add\t%%rax,%0\n\t" "mov\t8+%1,%%rax\n\t" "adc\t%%rax,8+%0\n\t" "mov\t16+%1,%%rax\n\t" "adc\t%%rax,16+%0\n\t" "mov\t24+%1,%%rax\n\t" "adc\t%%rax,24+%0\n\t" "mov\t32+%1,%%rax\n\t" "adc\t%%rax,32+%0\n\t" "mov\t40+%1,%%rax\n\t" "adc\t%%rax,40+%0\n\t" "mov\t48+%1,%%rax\n\t" "adc\t%%rax,48+%0" : /* no outputs */ : "o"(*A), "o"(*B) : "rax", "memory", "cc"); #else uint64_t c; ADC( A[0], A[0], B[0], 0, c ); ADC( A[1], A[1], B[1], c, c ); ADC( A[2], A[2], B[2], c, c ); ADC( A[3], A[3], B[3], c, c ); ADC( A[4], A[4], B[4], c, c ); ADC( A[5], A[5], B[5], c, c ); ADC( A[6], A[6], B[6], c, c ); #endif } static void mbedtls_p384_slu( uint64_t A[7], const uint64_t B[7] ) { #if defined(__x86_64__) && !defined(__STRICT_ANSI__) asm("mov\t%1,%%rax\n\t" "sub\t%%rax,%0\n\t" "mov\t8+%1,%%rax\n\t" "sbb\t%%rax,8+%0\n\t" "mov\t16+%1,%%rax\n\t" "sbb\t%%rax,16+%0\n\t" "mov\t24+%1,%%rax\n\t" "sbb\t%%rax,24+%0\n\t" "mov\t32+%1,%%rax\n\t" "sbb\t%%rax,32+%0\n\t" "mov\t40+%1,%%rax\n\t" "sbb\t%%rax,40+%0\n\t" "mov\t48+%1,%%rax\n\t" "sbb\t%%rax,48+%0" : /* no outputs */ : "o"(*A), "o"(*B) : "rax", "memory", "cc"); #else uint64_t c; SBB( A[0], A[0], B[0], 0, c ); SBB( A[1], A[1], B[1], c, c ); SBB( A[2], A[2], B[2], c, c ); SBB( A[3], A[3], B[3], c, c ); SBB( A[4], A[4], B[4], c, c ); SBB( A[5], A[5], B[5], c, c ); SBB( A[6], A[6], B[6], c, c ); #endif } static void mbedtls_p384_add( uint64_t X[7], const uint64_t A[6], const uint64_t B[6] ) { #if defined(__x86_64__) && !defined(__STRICT_ANSI__) asm("xor\t%%rcx,%%rcx\n\t" "mov\t%1,%%rax\n\t" "add\t%2,%%rax\n\t" "mov\t%%rax,%0\n\t" "mov\t8+%1,%%rax\n\t" "adc\t8+%2,%%rax\n\t" "mov\t%%rax,8+%0\n\t" "mov\t16+%1,%%rax\n\t" "adc\t16+%2,%%rax\n\t" "mov\t%%rax,16+%0\n\t" "mov\t24+%1,%%rax\n\t" "adc\t24+%2,%%rax\n\t" "mov\t%%rax,24+%0\n\t" "mov\t32+%1,%%rax\n\t" "adc\t32+%2,%%rax\n\t" "mov\t%%rax,32+%0\n\t" "mov\t40+%1,%%rax\n\t" "adc\t40+%2,%%rax\n\t" "mov\t%%rax,40+%0\n\t" "adc\t$0,%%rcx\n\t" "mov\t%%rcx,48+%0" : "+o"(*X) : "o"(*A), "o"(*B) : "rax", "rcx", "memory", "cc"); #else uint64_t c; ADC( X[0], A[0], B[0], 0, c ); ADC( X[1], A[1], B[1], c, c ); ADC( X[2], A[2], B[2], c, c ); ADC( X[3], A[3], B[3], c, c ); ADC( X[4], A[4], B[4], c, c ); ADC( X[5], A[5], B[5], c, X[6] ); #endif mbedtls_p384_rum( X ); DCHECK_EQ(0, X[6]); } static void mbedtls_p384_sub( uint64_t X[7], const uint64_t A[6], const uint64_t B[6] ) { #if defined(__x86_64__) && !defined(__STRICT_ANSI__) asm("xor\t%%rcx,%%rcx\n\t" "mov\t%1,%%rax\n\t" "sub\t%2,%%rax\n\t" "mov\t%%rax,%0\n\t" "mov\t8+%1,%%rax\n\t" "sbb\t8+%2,%%rax\n\t" "mov\t%%rax,8+%0\n\t" "mov\t16+%1,%%rax\n\t" "sbb\t16+%2,%%rax\n\t" "mov\t%%rax,16+%0\n\t" "mov\t24+%1,%%rax\n\t" "sbb\t24+%2,%%rax\n\t" "mov\t%%rax,24+%0\n\t" "mov\t32+%1,%%rax\n\t" "sbb\t32+%2,%%rax\n\t" "mov\t%%rax,32+%0\n\t" "mov\t40+%1,%%rax\n\t" "sbb\t40+%2,%%rax\n\t" "mov\t%%rax,40+%0\n\t" "sbb\t$0,%%rcx\n\t" "mov\t%%rcx,48+%0" : "+o"(*X) : "o"(*A), "o"(*B) : "rax", "rcx", "memory", "cc"); #else uint64_t c; SBB( X[0], A[0], B[0], 0, c ); SBB( X[1], A[1], B[1], c, c ); SBB( X[2], A[2], B[2], c, c ); SBB( X[3], A[3], B[3], c, c ); SBB( X[4], A[4], B[4], c, c ); SBB( X[5], A[5], B[5], c, c ); X[6] = -c; #endif while( (int64_t)X[6] < 0 ) mbedtls_p384_gro( X ); DCHECK_EQ(0, X[6]); } static void mbedtls_p384_hub( uint64_t A[7], const uint64_t B[6] ) { #if defined(__x86_64__) && !defined(__STRICT_ANSI__) asm("xor\t%%rcx,%%rcx\n\t" "mov\t%1,%%rax\n\t" "sub\t%%rax,%0\n\t" "mov\t8+%1,%%rax\n\t" "sbb\t%%rax,8+%0\n\t" "mov\t16+%1,%%rax\n\t" "sbb\t%%rax,16+%0\n\t" "mov\t24+%1,%%rax\n\t" "sbb\t%%rax,24+%0\n\t" "mov\t32+%1,%%rax\n\t" "sbb\t%%rax,32+%0\n\t" "mov\t40+%1,%%rax\n\t" "sbb\t%%rax,40+%0\n\t" "sbb\t$0,%%rcx\n\t" "mov\t%%rcx,48+%0" : "+o"(*A) : "o"(*B) : "rax", "rcx", "memory", "cc"); while( (int64_t)A[6] < 0 ) mbedtls_p384_gro( A ); DCHECK_EQ(0, A[6]); #else mbedtls_p384_sub(A, A, B); #endif } static inline void mbedtls_p384_cop( uint64_t X[6], const uint64_t Y[6] ) { memcpy( X, Y, 6*8 ); } static int mbedtls_p384_dim( mbedtls_ecp_point *R ) { int ret; if( R->X.n < 6 && ( ret = mbedtls_mpi_grow( &R->X, 6 ) ) ) return( ret ); if( R->Y.n < 6 && ( ret = mbedtls_mpi_grow( &R->Y, 6 ) ) ) return( ret ); if( R->Z.n < 6 && ( ret = mbedtls_mpi_grow( &R->Z, 6 ) ) ) return( ret ); return( 0 ); } int mbedtls_p384_double_jac( const mbedtls_ecp_group *G, const mbedtls_ecp_point *P, mbedtls_ecp_point *R ) { int ret; uint64_t T[4][12]; if( IsAsan() ) __asan_verify( P, sizeof( *P ) ); if( IsAsan() ) __asan_verify( R, sizeof( *R ) ); if( ( ret = mbedtls_p384_dim( R ) ) ) return( ret ); if( ( ret = mbedtls_p384_dim( P ) ) ) return( ret ); mbedtls_platform_zeroize( T, sizeof( T ) ); mbedtls_p384_mul( T[1], P->Z.p, 6, P->Z.p, 6 ); mbedtls_p384_add( T[2], P->X.p, T[1] ); mbedtls_p384_sub( T[3], P->X.p, T[1] ); mbedtls_p384_mul( T[1], T[2], 6, T[3], 6 ); mbedtls_mpi_mul_hlp1( 6, T[1], T[0], 3 ); mbedtls_p384_rum( T[0] ); mbedtls_p384_mul( T[2], P->Y.p, 6, P->Y.p, 6 ); mbedtls_p384_shl( T[2] ); mbedtls_p384_mul( T[1], P->X.p, 6, T[2], 6 ); mbedtls_p384_shl( T[1] ); mbedtls_p384_mul( T[3], T[2], 6, T[2], 6 ); mbedtls_p384_shl( T[3] ); mbedtls_p384_mul( T[2], T[0], 6, T[0], 6 ); mbedtls_p384_hub( T[2], T[1] ); mbedtls_p384_hub( T[2], T[1] ); mbedtls_p384_hub( T[1], T[2] ); mbedtls_p384_mul( T[1], T[1], 6, T[0], 6 ); mbedtls_p384_hub( T[1], T[3] ); mbedtls_p384_mul( T[3], P->Y.p, 6, P->Z.p, 6 ); mbedtls_p384_shl( T[3] ); mbedtls_p384_cop( R->X.p, T[2] ); mbedtls_p384_cop( R->Y.p, T[1] ); mbedtls_p384_cop( R->Z.p, T[3] ); return( 0 ); } int mbedtls_p384_add_mixed( const mbedtls_ecp_group *G, const mbedtls_ecp_point *P, const mbedtls_ecp_point *Q, mbedtls_ecp_point *R ) { int ret; struct { uint64_t X[12], Y[12], Z[12]; uint64_t T1[12], T2[12], T3[12], T4[12]; size_t Xn, Yn, Zn, QXn, QYn; } s; if( IsAsan() ) __asan_verify( G, sizeof( *G ) ); if( IsAsan() ) __asan_verify( P, sizeof( *P ) ); if( IsAsan() ) __asan_verify( Q, sizeof( *Q ) ); if( IsAsan() ) __asan_verify( R, sizeof( *R ) ); if( ( ret = mbedtls_p384_dim( R ) ) ) return( ret ); mbedtls_platform_zeroize( &s, sizeof( s ) ); s.Xn = mbedtls_mpi_limbs( &P->X ); s.Yn = mbedtls_mpi_limbs( &P->Y ); s.Zn = mbedtls_mpi_limbs( &P->Z ); s.QXn = mbedtls_mpi_limbs( &Q->X ); s.QYn = mbedtls_mpi_limbs( &Q->Y ); CHECK_LE( s.Xn, 6 ); CHECK_LE( s.Yn, 6 ); CHECK_LE( s.Zn, 6 ); CHECK_LE( s.QXn, 6 ); CHECK_LE( s.QYn, 6 ); memcpy( s.X, P->X.p, s.Xn * 8 ); memcpy( s.Y, P->Y.p, s.Yn * 8 ); memcpy( s.Z, P->Z.p, s.Zn * 8 ); mbedtls_p384_mul( s.T1, s.Z, s.Zn, s.Z, s.Zn ); mbedtls_p384_mul( s.T2, s.T1, 6, s.Z, s.Zn ); mbedtls_p384_mul( s.T1, s.T1, 6, Q->X.p, s.QXn ); mbedtls_p384_mul( s.T2, s.T2, 6, Q->Y.p, s.QYn ); mbedtls_p384_hub( s.T1, s.X ); mbedtls_p384_hub( s.T2, s.Y ); if( mbedtls_p384_isz( s.T1 ) ) { if( mbedtls_p384_isz( s.T2 ) ) return( mbedtls_p384_double_jac( G, P, R ) ); else return( mbedtls_ecp_set_zero( R ) ); } mbedtls_p384_mul( s.Z, s.Z, s.Zn, s.T1, 6 ); mbedtls_p384_mul( s.T3, s.T1, 6, s.T1, 6 ); mbedtls_p384_mul( s.T4, s.T3, 6, s.T1, 6 ); mbedtls_p384_mul( s.T3, s.T3, 6, s.X, s.Xn ); mbedtls_p384_cop( s.T1, s.T3 ); mbedtls_p384_shl( s.T1 ); mbedtls_p384_mul( s.X, s.T2, 6, s.T2, 6 ); mbedtls_p384_hub( s.X, s.T1 ); mbedtls_p384_hub( s.X, s.T4 ); mbedtls_p384_hub( s.T3, s.X ); mbedtls_p384_mul( s.T3, s.T3, 6, s.T2, 6 ); mbedtls_p384_mul( s.T4, s.T4, 6, s.Y, s.Yn ); mbedtls_p384_sub( s.Y, s.T3, s.T4 ); mbedtls_p384_cop( R->X.p, s.X ); mbedtls_p384_cop( R->Y.p, s.Y ); mbedtls_p384_cop( R->Z.p, s.Z ); mbedtls_platform_zeroize( &s, sizeof( s ) ); return( 0 ); } static void mbedtls_p384_inv( uint64_t X[6], const uint64_t A[6], const uint64_t N[6] ) { uint64_t TA[7], TU[7], TV[7], UV[4][7]; mbedtls_platform_zeroize( UV, sizeof( UV ) ); *(uint64_t *)mempcpy( TA, A, 6*8 ) = 0; *(uint64_t *)mempcpy( TU, A, 6*8 ) = 0; *(uint64_t *)mempcpy( TV, N, 6*8 ) = 0; UV[0][0] = 1; UV[3][0] = 1; do { while( ~TU[0] & 1 ){ mbedtls_p384_sar( TU ); if( ( UV[0][0] | UV[1][0] ) & 1 ){ mbedtls_p384_gro( UV[0] ); mbedtls_p384_slu( UV[1], TA ); } mbedtls_p384_sar( UV[0] ); mbedtls_p384_sar( UV[1] ); } while( ~TV[0] & 1 ){ mbedtls_p384_sar( TV ); if( ( UV[2][0] | UV[3][0] ) & 1 ){ mbedtls_p384_gro( UV[2] ); mbedtls_p384_slu( UV[3], TA ); } mbedtls_p384_sar( UV[2] ); mbedtls_p384_sar( UV[3] ); } if( mbedtls_p384_cmp( TU, TV ) >= 0 ){ mbedtls_p384_slu( TU, TV ); mbedtls_p384_slu( UV[0], UV[2] ); mbedtls_p384_slu( UV[1], UV[3] ); } else { mbedtls_p384_slu( TV, TU ); mbedtls_p384_slu( UV[2], UV[0] ); mbedtls_p384_slu( UV[3], UV[1] ); } } while( TU[0] | TU[1] | TU[2] | TU[3] | TU[4] | TU[5] | TU[6] ); while( (int64_t)UV[2][6] < 0 ) mbedtls_p384_gro( UV[2] ); while( mbedtls_p384_gte( UV[2] ) ) mbedtls_p384_red( UV[2] ); mbedtls_p384_cop( X, UV[2] ); } int mbedtls_p384_normalize_jac( const mbedtls_ecp_group *grp, mbedtls_ecp_point *pt ) { int ret; uint64_t t[12], Zi[12], ZZi[12]; if(( ret = mbedtls_p384_dim(pt)) ) return( ret ); mbedtls_p384_inv( Zi, pt->Z.p, grp->P.p ); mbedtls_p384_mul( ZZi, Zi, 6, Zi, 6 ); mbedtls_p384_mul( t, pt->X.p, 6, ZZi, 6 ); mbedtls_p384_cop( pt->X.p, t ); mbedtls_p384_mul( t, pt->Y.p, 6, ZZi, 6 ); mbedtls_p384_mul( t, t, 6, Zi, 6 ); mbedtls_p384_cop( pt->Y.p, t ); mbedtls_mpi_lset( &pt->Z, 1 ); return( 0 ); } int mbedtls_p384_normalize_jac_many( const mbedtls_ecp_group *grp, mbedtls_ecp_point *T[], size_t n ) { size_t i; uint64_t *c, u[12], ta[12], Zi[12], ZZi[12]; if( !( c = mbedtls_calloc( n, 12*8 ) ) ) return( MBEDTLS_ERR_ECP_ALLOC_FAILED ); memcpy( c, T[0]->Z.p, T[0]->Z.n*8 ); for( i = 1; i < n; i++ ) mbedtls_p384_mul( c+i*12, c+(i-1)*12, 6, T[i]->Z.p, 6 ); mbedtls_p384_inv( u, c+(n-1)*12, grp->P.p ); for( i = n - 1; ; i-- ){ if( !i ){ mbedtls_p384_cop( Zi, u ); } else { mbedtls_p384_mul( Zi, u, 6, c+(i-1)*12, 6 ); mbedtls_p384_mul( u, u, 6, T[i]->Z.p, 6 ); } mbedtls_p384_mul( ZZi, Zi, 6, Zi, 6 ); mbedtls_p384_mul( ta, T[i]->X.p, 6, ZZi, 6 ); memcpy( T[i]->X.p, ta, 6 * 8 ); mbedtls_p384_mul( ta, T[i]->Y.p, 6, ZZi, 6 ); mbedtls_p384_mul( ta, ta, 6, Zi, 6 ); memcpy( T[i]->Y.p, ta, 6 * 8 ); mbedtls_mpi_free( &T[i]->Z ); if( !i ) break; } mbedtls_platform_zeroize( ta, sizeof( ta ) ); mbedtls_platform_zeroize( c, n*12*8 ); mbedtls_free( c ); return( 0 ); }