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crypto: arm64/aegis128 - implement plain NEON version

Provide a version of the core AES transform to the aegis128 SIMD
code that does not rely on the special AES instructions, but uses
plain NEON instructions instead. This allows the SIMD version of
the aegis128 driver to be used on arm64 systems that do not
implement those instructions (which are not mandatory in the
architecture), such as the Raspberry Pi 3.

Since GCC makes a mess of this when using the tbl/tbx intrinsics
to perform the sbox substitution, preload the Sbox into v16..v31
in this case and use inline asm to emit the tbl/tbx instructions.
Clang does not support this approach, nor does it require it, since
it does a much better job at code generation, so there we use the
intrinsics as usual.

Cc: Nick Desaulniers <ndesaulniers@google.com>
Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org>
Acked-by: Nick Desaulniers <ndesaulniers@google.com>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
This commit is contained in:
Ard Biesheuvel 2019-08-12 01:59:12 +03:00 committed by Herbert Xu
parent a4397635af
commit 198429631a
3 changed files with 80 additions and 2 deletions

View File

@ -98,7 +98,14 @@ CFLAGS_aegis128-neon-inner.o += -mfpu=crypto-neon-fp-armv8
aegis128-$(CONFIG_CRYPTO_AEGIS128_SIMD) += aegis128-neon.o aegis128-neon-inner.o
endif
ifeq ($(ARCH),arm64)
CFLAGS_aegis128-neon-inner.o += -ffreestanding -mcpu=generic+crypto
aegis128-cflags-y := -ffreestanding -mcpu=generic+crypto
aegis128-cflags-$(CONFIG_CC_IS_GCC) += -ffixed-q16 -ffixed-q17 -ffixed-q18 \
-ffixed-q19 -ffixed-q20 -ffixed-q21 \
-ffixed-q22 -ffixed-q23 -ffixed-q24 \
-ffixed-q25 -ffixed-q26 -ffixed-q27 \
-ffixed-q28 -ffixed-q29 -ffixed-q30 \
-ffixed-q31
CFLAGS_aegis128-neon-inner.o += $(aegis128-cflags-y)
CFLAGS_REMOVE_aegis128-neon-inner.o += -mgeneral-regs-only
aegis128-$(CONFIG_CRYPTO_AEGIS128_SIMD) += aegis128-neon.o aegis128-neon-inner.o
endif

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@ -17,6 +17,8 @@
#include <stddef.h>
extern int aegis128_have_aes_insn;
void *memcpy(void *dest, const void *src, size_t n);
void *memset(void *s, int c, size_t n);
@ -24,6 +26,8 @@ struct aegis128_state {
uint8x16_t v[5];
};
extern const uint8x16x4_t crypto_aes_sbox[];
static struct aegis128_state aegis128_load_state_neon(const void *state)
{
return (struct aegis128_state){ {
@ -49,6 +53,46 @@ uint8x16_t aegis_aes_round(uint8x16_t w)
{
uint8x16_t z = {};
#ifdef CONFIG_ARM64
if (!__builtin_expect(aegis128_have_aes_insn, 1)) {
static const uint8x16_t shift_rows = {
0x0, 0x5, 0xa, 0xf, 0x4, 0x9, 0xe, 0x3,
0x8, 0xd, 0x2, 0x7, 0xc, 0x1, 0x6, 0xb,
};
static const uint8x16_t ror32by8 = {
0x1, 0x2, 0x3, 0x0, 0x5, 0x6, 0x7, 0x4,
0x9, 0xa, 0xb, 0x8, 0xd, 0xe, 0xf, 0xc,
};
uint8x16_t v;
// shift rows
w = vqtbl1q_u8(w, shift_rows);
// sub bytes
if (!IS_ENABLED(CONFIG_CC_IS_GCC)) {
v = vqtbl4q_u8(crypto_aes_sbox[0], w);
v = vqtbx4q_u8(v, crypto_aes_sbox[1], w - 0x40);
v = vqtbx4q_u8(v, crypto_aes_sbox[2], w - 0x80);
v = vqtbx4q_u8(v, crypto_aes_sbox[3], w - 0xc0);
} else {
asm("tbl %0.16b, {v16.16b-v19.16b}, %1.16b" : "=w"(v) : "w"(w));
w -= 0x40;
asm("tbx %0.16b, {v20.16b-v23.16b}, %1.16b" : "+w"(v) : "w"(w));
w -= 0x40;
asm("tbx %0.16b, {v24.16b-v27.16b}, %1.16b" : "+w"(v) : "w"(w));
w -= 0x40;
asm("tbx %0.16b, {v28.16b-v31.16b}, %1.16b" : "+w"(v) : "w"(w));
}
// mix columns
w = (v << 1) ^ (uint8x16_t)(((int8x16_t)v >> 7) & 0x1b);
w ^= (uint8x16_t)vrev32q_u16((uint16x8_t)v);
w ^= vqtbl1q_u8(v ^ w, ror32by8);
return w;
}
#endif
/*
* We use inline asm here instead of the vaeseq_u8/vaesmcq_u8 intrinsics
* to force the compiler to issue the aese/aesmc instructions in pairs.
@ -73,10 +117,27 @@ struct aegis128_state aegis128_update_neon(struct aegis128_state st,
return st;
}
static inline __attribute__((always_inline))
void preload_sbox(void)
{
if (!IS_ENABLED(CONFIG_ARM64) ||
!IS_ENABLED(CONFIG_CC_IS_GCC) ||
__builtin_expect(aegis128_have_aes_insn, 1))
return;
asm("ld1 {v16.16b-v19.16b}, [%0], #64 \n\t"
"ld1 {v20.16b-v23.16b}, [%0], #64 \n\t"
"ld1 {v24.16b-v27.16b}, [%0], #64 \n\t"
"ld1 {v28.16b-v31.16b}, [%0] \n\t"
:: "r"(crypto_aes_sbox));
}
void crypto_aegis128_update_neon(void *state, const void *msg)
{
struct aegis128_state st = aegis128_load_state_neon(state);
preload_sbox();
st = aegis128_update_neon(st, vld1q_u8(msg));
aegis128_save_state_neon(st, state);
@ -88,6 +149,8 @@ void crypto_aegis128_encrypt_chunk_neon(void *state, void *dst, const void *src,
struct aegis128_state st = aegis128_load_state_neon(state);
uint8x16_t msg;
preload_sbox();
while (size >= AEGIS_BLOCK_SIZE) {
uint8x16_t s = st.v[1] ^ (st.v[2] & st.v[3]) ^ st.v[4];
@ -120,6 +183,8 @@ void crypto_aegis128_decrypt_chunk_neon(void *state, void *dst, const void *src,
struct aegis128_state st = aegis128_load_state_neon(state);
uint8x16_t msg;
preload_sbox();
while (size >= AEGIS_BLOCK_SIZE) {
msg = vld1q_u8(src) ^ st.v[1] ^ (st.v[2] & st.v[3]) ^ st.v[4];
st = aegis128_update_neon(st, msg);

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@ -14,9 +14,15 @@ void crypto_aegis128_encrypt_chunk_neon(void *state, void *dst, const void *src,
void crypto_aegis128_decrypt_chunk_neon(void *state, void *dst, const void *src,
unsigned int size);
int aegis128_have_aes_insn __ro_after_init;
bool crypto_aegis128_have_simd(void)
{
return cpu_have_feature(cpu_feature(AES));
if (cpu_have_feature(cpu_feature(AES))) {
aegis128_have_aes_insn = 1;
return true;
}
return IS_ENABLED(CONFIG_ARM64);
}
void crypto_aegis128_update_simd(union aegis_block *state, const void *msg)