xref: /openbmc/linux/arch/x86/crypto/nh-sse2-x86_64.S (revision 1aaba11d)
1/* SPDX-License-Identifier: GPL-2.0 */
2/*
3 * NH - ε-almost-universal hash function, x86_64 SSE2 accelerated
4 *
5 * Copyright 2018 Google LLC
6 *
7 * Author: Eric Biggers <ebiggers@google.com>
8 */
9
10#include <linux/linkage.h>
11#include <linux/cfi_types.h>
12
13#define		PASS0_SUMS	%xmm0
14#define		PASS1_SUMS	%xmm1
15#define		PASS2_SUMS	%xmm2
16#define		PASS3_SUMS	%xmm3
17#define		K0		%xmm4
18#define		K1		%xmm5
19#define		K2		%xmm6
20#define		K3		%xmm7
21#define		T0		%xmm8
22#define		T1		%xmm9
23#define		T2		%xmm10
24#define		T3		%xmm11
25#define		T4		%xmm12
26#define		T5		%xmm13
27#define		T6		%xmm14
28#define		T7		%xmm15
29#define		KEY		%rdi
30#define		MESSAGE		%rsi
31#define		MESSAGE_LEN	%rdx
32#define		HASH		%rcx
33
34.macro _nh_stride	k0, k1, k2, k3, offset
35
36	// Load next message stride
37	movdqu		\offset(MESSAGE), T1
38
39	// Load next key stride
40	movdqu		\offset(KEY), \k3
41
42	// Add message words to key words
43	movdqa		T1, T2
44	movdqa		T1, T3
45	paddd		T1, \k0    // reuse k0 to avoid a move
46	paddd		\k1, T1
47	paddd		\k2, T2
48	paddd		\k3, T3
49
50	// Multiply 32x32 => 64 and accumulate
51	pshufd		$0x10, \k0, T4
52	pshufd		$0x32, \k0, \k0
53	pshufd		$0x10, T1, T5
54	pshufd		$0x32, T1, T1
55	pshufd		$0x10, T2, T6
56	pshufd		$0x32, T2, T2
57	pshufd		$0x10, T3, T7
58	pshufd		$0x32, T3, T3
59	pmuludq		T4, \k0
60	pmuludq		T5, T1
61	pmuludq		T6, T2
62	pmuludq		T7, T3
63	paddq		\k0, PASS0_SUMS
64	paddq		T1, PASS1_SUMS
65	paddq		T2, PASS2_SUMS
66	paddq		T3, PASS3_SUMS
67.endm
68
69/*
70 * void nh_sse2(const u32 *key, const u8 *message, size_t message_len,
71 *		__le64 hash[NH_NUM_PASSES])
72 *
73 * It's guaranteed that message_len % 16 == 0.
74 */
75SYM_TYPED_FUNC_START(nh_sse2)
76
77	movdqu		0x00(KEY), K0
78	movdqu		0x10(KEY), K1
79	movdqu		0x20(KEY), K2
80	add		$0x30, KEY
81	pxor		PASS0_SUMS, PASS0_SUMS
82	pxor		PASS1_SUMS, PASS1_SUMS
83	pxor		PASS2_SUMS, PASS2_SUMS
84	pxor		PASS3_SUMS, PASS3_SUMS
85
86	sub		$0x40, MESSAGE_LEN
87	jl		.Lloop4_done
88.Lloop4:
89	_nh_stride	K0, K1, K2, K3, 0x00
90	_nh_stride	K1, K2, K3, K0, 0x10
91	_nh_stride	K2, K3, K0, K1, 0x20
92	_nh_stride	K3, K0, K1, K2, 0x30
93	add		$0x40, KEY
94	add		$0x40, MESSAGE
95	sub		$0x40, MESSAGE_LEN
96	jge		.Lloop4
97
98.Lloop4_done:
99	and		$0x3f, MESSAGE_LEN
100	jz		.Ldone
101	_nh_stride	K0, K1, K2, K3, 0x00
102
103	sub		$0x10, MESSAGE_LEN
104	jz		.Ldone
105	_nh_stride	K1, K2, K3, K0, 0x10
106
107	sub		$0x10, MESSAGE_LEN
108	jz		.Ldone
109	_nh_stride	K2, K3, K0, K1, 0x20
110
111.Ldone:
112	// Sum the accumulators for each pass, then store the sums to 'hash'
113	movdqa		PASS0_SUMS, T0
114	movdqa		PASS2_SUMS, T1
115	punpcklqdq	PASS1_SUMS, T0		// => (PASS0_SUM_A PASS1_SUM_A)
116	punpcklqdq	PASS3_SUMS, T1		// => (PASS2_SUM_A PASS3_SUM_A)
117	punpckhqdq	PASS1_SUMS, PASS0_SUMS	// => (PASS0_SUM_B PASS1_SUM_B)
118	punpckhqdq	PASS3_SUMS, PASS2_SUMS	// => (PASS2_SUM_B PASS3_SUM_B)
119	paddq		PASS0_SUMS, T0
120	paddq		PASS2_SUMS, T1
121	movdqu		T0, 0x00(HASH)
122	movdqu		T1, 0x10(HASH)
123	RET
124SYM_FUNC_END(nh_sse2)
125