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;;
;; Copyright (c) 2012-2018, 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 "os.asm"
%include "memcpy.asm"

; routine to do AES192 CNTR enc/decrypt "by4"
; XMM registers are clobbered. Saving/restoring must be done at a higher level

extern byteswap_const, ddq_add_1, ddq_add_2, ddq_add_3, ddq_add_4

%define CONCAT(a,b) a %+ b
%define MOVDQ movdqu

%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 xcounter xmm8
%define xbyteswap xmm9
%define xkey0 	xmm10
%define xkey4 	xmm11
%define xkey8 	xmm12
%define xkey12	xmm13
%define xkeyA	xmm14
%define xkeyB	xmm15

%ifdef LINUX
%define p_in	  rdi
%define p_IV	  rsi
%define p_keys	  rdx
%define p_out	  rcx
%define num_bytes r8
%define p_ivlen   r9
%else
%define p_in	  rcx
%define p_IV	  rdx
%define p_keys	  r8
%define p_out	  r9
%define num_bytes r10
%define p_ivlen   qword [rsp + 8*6]
%endif

%define tmp	r11
%define p_tmp	rsp + _buffer

%macro do_aes_load 1
	do_aes %1, 1
%endmacro

%macro do_aes_noload 1
	do_aes %1, 0
%endmacro


; do_aes num_in_par load_keys
; This increments p_in, but not p_out
%macro do_aes 2
%define %%by %1
%define %%load_keys %2

%if (%%load_keys)
	movdqa	xkey0, [p_keys + 0*16]
%endif

	movdqa	xdata0, xcounter
	pshufb	xdata0, xbyteswap
%assign i 1
%rep (%%by - 1)
	movdqa	CONCAT(xdata,i), xcounter
	paddd	CONCAT(xdata,i), [rel CONCAT(ddq_add_,i)]
	pshufb	CONCAT(xdata,i), xbyteswap
%assign i (i + 1)
%endrep

	movdqa	xkeyA, [p_keys + 1*16]

	pxor	xdata0, xkey0
	paddd	xcounter, [rel CONCAT(ddq_add_,%%by)]
%assign i 1
%rep (%%by - 1)
	pxor	CONCAT(xdata,i), xkey0
%assign i (i + 1)
%endrep

	movdqa	xkeyB, [p_keys + 2*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyA		; key 1
%assign i (i+1)
%endrep

	movdqa	xkeyA, [p_keys + 3*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyB		; key 2
%assign i (i+1)
%endrep

	add	p_in, 16*%%by

%if (%%load_keys)
	movdqa	xkey4, [p_keys + 4*16]
%endif
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyA		; key 3
%assign i (i+1)
%endrep

	movdqa	xkeyA, [p_keys + 5*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkey4		; key 4
%assign i (i+1)
%endrep

	movdqa	xkeyB, [p_keys + 6*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyA		; key 5
%assign i (i+1)
%endrep

	movdqa	xkeyA, [p_keys + 7*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyB		; key 6
%assign i (i+1)
%endrep

%if (%%load_keys)
	movdqa	xkey8, [p_keys + 8*16]
%endif
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyA		; key 7
%assign i (i+1)
%endrep

	movdqa	xkeyA, [p_keys + 9*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkey8		; key 8
%assign i (i+1)
%endrep

	movdqa	xkeyB, [p_keys + 10*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyA		; key 9
%assign i (i+1)
%endrep

	movdqa	xkeyA, [p_keys + 11*16]
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyB		; key 10
%assign i (i+1)
%endrep

%if (%%load_keys)
	movdqa	xkey12, [p_keys + 12*16]
%endif
%assign i 0
%rep %%by
	aesenc	CONCAT(xdata,i), xkeyA		; key 11
%assign i (i+1)
%endrep

%assign i 0
%rep %%by
	aesenclast	CONCAT(xdata,i), xkey12	; key 12
%assign i (i+1)
%endrep

%assign i 0
%rep (%%by / 2)
%assign j (i+1)
	MOVDQ	xkeyA, [p_in + i*16 - 16*%%by]
	MOVDQ	xkeyB, [p_in + j*16 - 16*%%by]
	pxor	CONCAT(xdata,i), xkeyA
	pxor	CONCAT(xdata,j), xkeyB
%assign i (i+2)
%endrep
%if (i < %%by)
	MOVDQ	xkeyA, [p_in + i*16 - 16*%%by]
	pxor	CONCAT(xdata,i), xkeyA
%endif

%assign i 0
%rep %%by
	MOVDQ	[p_out  + i*16], CONCAT(xdata,i)
%assign i (i+1)
%endrep
%endmacro

struc STACK
_buffer:	resq	2
_rsp_save:	resq	1
endstruc

;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
section .text

;; aes_cntr_192_sse(void *in, void *IV, void *keys, void *out, UINT64 num_bytes, UINT64 iv_len)
align 32
MKGLOBAL(aes_cntr_192_sse,function,internal)
aes_cntr_192_sse:

%ifndef LINUX
	mov	num_bytes, [rsp + 8*5]
%endif

	movdqa	xbyteswap, [rel byteswap_const]
        test    p_ivlen, 16
        jnz     iv_is_16_bytes
        ; Read 12 bytes: Nonce + ESP IV. Then pad with block counter 0x00000001
        mov     DWORD(tmp), 0x01000000
        pinsrq  xcounter, [p_IV], 0
        pinsrd  xcounter, [p_IV + 8], 2
        pinsrd  xcounter, DWORD(tmp), 3
bswap_iv:
	pshufb	xcounter, xbyteswap

	mov	tmp, num_bytes
	and	tmp, 3*16
        jz	chk             ; x4 > or < 15 (not 3 lines)

	; 1 <= tmp <= 3
	cmp	tmp, 2*16
	jg	eq3
	je	eq2
eq1:
	do_aes_load	1
	add	p_out, 1*16
	jmp	chk

eq2:
	do_aes_load	2
	add	p_out, 2*16
	jmp	chk

eq3:
	do_aes_load	3
	add	p_out, 3*16
	; fall through to chk
chk:
	and	num_bytes, ~(3*16)
	jz	do_return2
        cmp	num_bytes, 16
        jb	last

	; process multiples of 4 blocks
	movdqa	xkey0, [p_keys + 0*16]
	movdqa	xkey4, [p_keys + 4*16]
	movdqa	xkey8, [p_keys + 8*16]
	movdqa	xkey12, [p_keys + 12*16]
	jmp	main_loop2

align 32
main_loop2:
	; num_bytes is a multiple of 4 and >0
	do_aes_noload	4
	add	p_out,	4*16
	sub	num_bytes, 4*16
        cmp	num_bytes, 4*16
	jae	main_loop2

	test	num_bytes, 15	; partial bytes to be processed?
	jnz	last

do_return2:
	; don't return updated IV
;	pshufb	xcounter, xbyteswap
;	movdqu	[p_IV], xcounter
	ret

last:
	;; Code dealing with the partial block cases
	; reserve 16 byte aligned buffer on stack
        mov	rax, rsp
        sub	rsp, STACK_size
        and	rsp, -16
	mov	[rsp + _rsp_save], rax ; save SP

	; copy input bytes into scratch buffer
	memcpy_sse_16_1	p_tmp, p_in, num_bytes, tmp, rax
	; Encryption of a single partial block (p_tmp)
        pshufb	xcounter, xbyteswap
        movdqa	xdata0, xcounter
        pxor    xdata0, [p_keys + 16*0]
%assign i 1
%rep 11
        aesenc  xdata0, [p_keys + 16*i]
%assign i (i+1)
%endrep
	; created keystream
        aesenclast xdata0, [p_keys + 16*i]
	; xor keystream with the message (scratch)
        pxor   	xdata0, [p_tmp]
	movdqa	[p_tmp], xdata0
	; copy result into the output buffer
	memcpy_sse_16_1	p_out, p_tmp, num_bytes, tmp, rax
	; remove the stack frame
	mov	rsp, [rsp + _rsp_save]	; original SP
	jmp	do_return2

iv_is_16_bytes:
        ; Read 16 byte IV: Nonce + ESP IV + block counter (BE)
        movdqu  xcounter, [p_IV]
        jmp     bswap_iv

%ifdef LINUX
section .note.GNU-stack noalloc noexec nowrite progbits
%endif