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|
/* SPDX-License-Identifier: OpenSSL OR (BSD-3-Clause OR GPL-2.0)
*
* Copyright (C) 2015-2018 Jason A. Donenfeld <Jason@zx2c4.com>. All Rights Reserved.
* Copyright 2016 The OpenSSL Project Authors. All Rights Reserved.
*/
#include "chacha20poly1305.h"
#include <linux/kernel.h>
#include <linux/string.h>
#include <linux/version.h>
#include <crypto/algapi.h>
#include <crypto/scatterwalk.h>
#include <asm/unaligned.h>
#if defined(CONFIG_X86_64)
#include <asm/cpufeature.h>
#include <asm/processor.h>
#include <asm/intel-family.h>
asmlinkage void poly1305_init_x86_64(void *ctx, const u8 key[16]);
asmlinkage void poly1305_blocks_x86_64(void *ctx, const u8 *inp, size_t len, u32 padbit);
asmlinkage void poly1305_emit_x86_64(void *ctx, u8 mac[16], const u32 nonce[4]);
#ifdef CONFIG_AS_SSSE3
asmlinkage void hchacha20_ssse3(u8 *derived_key, const u8 *nonce, const u8 *key);
asmlinkage void chacha20_ssse3(u8 *out, const u8 *in, size_t len, const u32 key[8], const u32 counter[4]);
#endif
#ifdef CONFIG_AS_AVX
asmlinkage void poly1305_emit_avx(void *ctx, u8 mac[16], const u32 nonce[4]);
asmlinkage void poly1305_blocks_avx(void *ctx, const u8 *inp, size_t len, u32 padbit);
#endif
#ifdef CONFIG_AS_AVX2
asmlinkage void chacha20_avx2(u8 *out, const u8 *in, size_t len, const u32 key[8], const u32 counter[4]);
asmlinkage void poly1305_blocks_avx2(void *ctx, const u8 *inp, size_t len, u32 padbit);
#endif
#ifdef CONFIG_AS_AVX512
asmlinkage void chacha20_avx512(u8 *out, const u8 *in, size_t len, const u32 key[8], const u32 counter[4]);
asmlinkage void chacha20_avx512vl(u8 *out, const u8 *in, size_t len, const u32 key[8], const u32 counter[4]);
asmlinkage void poly1305_blocks_avx512(void *ctx, const u8 *inp, size_t len, u32 padbit);
#endif
static bool chacha20poly1305_use_ssse3 __ro_after_init;
static bool chacha20poly1305_use_avx __ro_after_init;
static bool chacha20poly1305_use_avx2 __ro_after_init;
static bool chacha20poly1305_use_avx512 __ro_after_init;
static bool chacha20poly1305_use_avx512vl __ro_after_init;
void __init chacha20poly1305_fpu_init(void)
{
#ifndef CONFIG_UML
chacha20poly1305_use_ssse3 = boot_cpu_has(X86_FEATURE_SSSE3);
chacha20poly1305_use_avx = boot_cpu_has(X86_FEATURE_AVX) &&
cpu_has_xfeatures(XFEATURE_MASK_SSE | XFEATURE_MASK_YMM, NULL);
chacha20poly1305_use_avx2 = boot_cpu_has(X86_FEATURE_AVX) && boot_cpu_has(X86_FEATURE_AVX2) &&
cpu_has_xfeatures(XFEATURE_MASK_SSE | XFEATURE_MASK_YMM, NULL);
#ifndef COMPAT_CANNOT_USE_AVX512
chacha20poly1305_use_avx512 = boot_cpu_has(X86_FEATURE_AVX) && boot_cpu_has(X86_FEATURE_AVX2) && boot_cpu_has(X86_FEATURE_AVX512F) &&
cpu_has_xfeatures(XFEATURE_MASK_SSE | XFEATURE_MASK_YMM | XFEATURE_MASK_AVX512, NULL) &&
boot_cpu_data.x86_model != INTEL_FAM6_SKYLAKE_X;
chacha20poly1305_use_avx512vl = boot_cpu_has(X86_FEATURE_AVX) && boot_cpu_has(X86_FEATURE_AVX2) && boot_cpu_has(X86_FEATURE_AVX512F) && boot_cpu_has(X86_FEATURE_AVX512VL) &&
cpu_has_xfeatures(XFEATURE_MASK_SSE | XFEATURE_MASK_YMM | XFEATURE_MASK_AVX512, NULL);
#endif
#endif
}
#elif defined(CONFIG_ARM) || defined(CONFIG_ARM64)
asmlinkage void poly1305_init_arm(void *ctx, const u8 key[16]);
asmlinkage void poly1305_blocks_arm(void *ctx, const u8 *inp, size_t len, u32 padbit);
asmlinkage void poly1305_emit_arm(void *ctx, u8 mac[16], const u32 nonce[4]);
asmlinkage void chacha20_arm(u8 *out, const u8 *in, size_t len, const u32 key[8], const u32 counter[4]);
#if IS_ENABLED(CONFIG_KERNEL_MODE_NEON) && (!defined(__LINUX_ARM_ARCH__) || __LINUX_ARM_ARCH__ >= 7)
#define ARM_USE_NEON
#include <asm/hwcap.h>
#include <asm/neon.h>
asmlinkage void poly1305_blocks_neon(void *ctx, const u8 *inp, size_t len, u32 padbit);
asmlinkage void poly1305_emit_neon(void *ctx, u8 mac[16], const u32 nonce[4]);
asmlinkage void chacha20_neon(u8 *out, const u8 *in, size_t len, const u32 key[8], const u32 counter[4]);
#endif
static bool chacha20poly1305_use_neon __ro_after_init;
void __init chacha20poly1305_fpu_init(void)
{
#if defined(CONFIG_ARM64)
chacha20poly1305_use_neon = elf_hwcap & HWCAP_ASIMD;
#elif defined(CONFIG_ARM)
chacha20poly1305_use_neon = elf_hwcap & HWCAP_NEON;
#endif
}
#elif defined(CONFIG_MIPS) && defined(CONFIG_64BIT)
asmlinkage void poly1305_init_mips(void *ctx, const u8 key[16]);
asmlinkage void poly1305_blocks_mips(void *ctx, const u8 *inp, size_t len, u32 padbit);
asmlinkage void poly1305_emit_mips(void *ctx, u8 mac[16], const u32 nonce[4]);
void __init chacha20poly1305_fpu_init(void) { }
#else
void __init chacha20poly1305_fpu_init(void) { }
#endif
enum {
CHACHA20_IV_SIZE = 16,
CHACHA20_KEY_SIZE = 32,
CHACHA20_BLOCK_SIZE = 64,
POLY1305_BLOCK_SIZE = 16,
POLY1305_KEY_SIZE = 32,
POLY1305_MAC_SIZE = 16
};
static inline u32 le32_to_cpuvp(const void *p)
{
return le32_to_cpup(p);
}
static inline u64 le64_to_cpuvp(const void *p)
{
return le64_to_cpup(p);
}
struct chacha20_ctx {
u32 state[CHACHA20_BLOCK_SIZE / sizeof(u32)];
} __aligned(32);
#define QUARTER_ROUND(x, a, b, c, d) ( \
x[a] += x[b], \
x[d] = rol32((x[d] ^ x[a]), 16), \
x[c] += x[d], \
x[b] = rol32((x[b] ^ x[c]), 12), \
x[a] += x[b], \
x[d] = rol32((x[d] ^ x[a]), 8), \
x[c] += x[d], \
x[b] = rol32((x[b] ^ x[c]), 7) \
)
#define C(i, j) (i * 4 + j)
#define DOUBLE_ROUND(x) ( \
/* Column Round */ \
QUARTER_ROUND(x, C(0, 0), C(1, 0), C(2, 0), C(3, 0)), \
QUARTER_ROUND(x, C(0, 1), C(1, 1), C(2, 1), C(3, 1)), \
QUARTER_ROUND(x, C(0, 2), C(1, 2), C(2, 2), C(3, 2)), \
QUARTER_ROUND(x, C(0, 3), C(1, 3), C(2, 3), C(3, 3)), \
/* Diagonal Round */ \
QUARTER_ROUND(x, C(0, 0), C(1, 1), C(2, 2), C(3, 3)), \
QUARTER_ROUND(x, C(0, 1), C(1, 2), C(2, 3), C(3, 0)), \
QUARTER_ROUND(x, C(0, 2), C(1, 3), C(2, 0), C(3, 1)), \
QUARTER_ROUND(x, C(0, 3), C(1, 0), C(2, 1), C(3, 2)) \
)
#define TWENTY_ROUNDS(x) ( \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x), \
DOUBLE_ROUND(x) \
)
static void chacha20_block_generic(struct chacha20_ctx *ctx, __le32 *stream)
{
u32 x[CHACHA20_BLOCK_SIZE / sizeof(u32)];
int i;
for (i = 0; i < ARRAY_SIZE(x); ++i)
x[i] = ctx->state[i];
TWENTY_ROUNDS(x);
for (i = 0; i < ARRAY_SIZE(x); ++i)
stream[i] = cpu_to_le32(x[i] + ctx->state[i]);
++ctx->state[12];
}
static void hchacha20_generic(u8 derived_key[CHACHA20POLY1305_KEYLEN], const u8 nonce[16], const u8 key[CHACHA20POLY1305_KEYLEN])
{
__le32 *out = (__force __le32 *)derived_key;
u32 x[] = {
0x61707865, 0x3320646e, 0x79622d32, 0x6b206574,
le32_to_cpuvp(key + 0), le32_to_cpuvp(key + 4), le32_to_cpuvp(key + 8), le32_to_cpuvp(key + 12),
le32_to_cpuvp(key + 16), le32_to_cpuvp(key + 20), le32_to_cpuvp(key + 24), le32_to_cpuvp(key + 28),
le32_to_cpuvp(nonce + 0), le32_to_cpuvp(nonce + 4), le32_to_cpuvp(nonce + 8), le32_to_cpuvp(nonce + 12)
};
TWENTY_ROUNDS(x);
out[0] = cpu_to_le32(x[0]);
out[1] = cpu_to_le32(x[1]);
out[2] = cpu_to_le32(x[2]);
out[3] = cpu_to_le32(x[3]);
out[4] = cpu_to_le32(x[12]);
out[5] = cpu_to_le32(x[13]);
out[6] = cpu_to_le32(x[14]);
out[7] = cpu_to_le32(x[15]);
}
static inline void hchacha20(u8 derived_key[CHACHA20POLY1305_KEYLEN], const u8 nonce[16], const u8 key[CHACHA20POLY1305_KEYLEN], bool have_simd)
{
#if defined(CONFIG_X86_64) && defined(CONFIG_AS_SSSE3)
if (have_simd && chacha20poly1305_use_ssse3) {
hchacha20_ssse3(derived_key, nonce, key);
return;
}
#endif
hchacha20_generic(derived_key, nonce, key);
}
#define chacha20_initial_state(key, nonce) {{ \
0x61707865, 0x3320646e, 0x79622d32, 0x6b206574, \
le32_to_cpuvp((key) + 0), le32_to_cpuvp((key) + 4), le32_to_cpuvp((key) + 8), le32_to_cpuvp((key) + 12), \
le32_to_cpuvp((key) + 16), le32_to_cpuvp((key) + 20), le32_to_cpuvp((key) + 24), le32_to_cpuvp((key) + 28), \
0, 0, le32_to_cpuvp((nonce) + 0), le32_to_cpuvp((nonce) + 4) \
}}
static void chacha20_crypt(struct chacha20_ctx *ctx, u8 *dst, const u8 *src, u32 bytes, bool have_simd)
{
__le32 buf[CHACHA20_BLOCK_SIZE / sizeof(__le32)];
if (!have_simd
#if defined(CONFIG_X86_64)
|| !chacha20poly1305_use_ssse3
#elif defined(ARM_USE_NEON)
|| !chacha20poly1305_use_neon
#endif
)
goto no_simd;
#if defined(CONFIG_X86_64)
#ifdef CONFIG_AS_AVX512
if (chacha20poly1305_use_avx512) {
chacha20_avx512(dst, src, bytes, &ctx->state[4], &ctx->state[12]);
ctx->state[12] += (bytes + 63) / 64;
return;
}
if (chacha20poly1305_use_avx512vl) {
chacha20_avx512vl(dst, src, bytes, &ctx->state[4], &ctx->state[12]);
ctx->state[12] += (bytes + 63) / 64;
return;
}
#endif
#ifdef CONFIG_AS_AVX2
if (chacha20poly1305_use_avx2) {
chacha20_avx2(dst, src, bytes, &ctx->state[4], &ctx->state[12]);
ctx->state[12] += (bytes + 63) / 64;
return;
}
#endif
#ifdef CONFIG_AS_SSSE3
chacha20_ssse3(dst, src, bytes, &ctx->state[4], &ctx->state[12]);
ctx->state[12] += (bytes + 63) / 64;
return;
#endif
#elif defined(ARM_USE_NEON)
chacha20_neon(dst, src, bytes, &ctx->state[4], &ctx->state[12]);
ctx->state[12] += (bytes + 63) / 64;
return;
#endif
no_simd:
#if defined(CONFIG_ARM) || defined(CONFIG_ARM64)
chacha20_arm(dst, src, bytes, &ctx->state[4], &ctx->state[12]);
ctx->state[12] += (bytes + 63) / 64;
return;
#endif
if (dst != src)
memcpy(dst, src, bytes);
while (bytes >= CHACHA20_BLOCK_SIZE) {
chacha20_block_generic(ctx, buf);
crypto_xor(dst, (u8 *)buf, CHACHA20_BLOCK_SIZE);
bytes -= CHACHA20_BLOCK_SIZE;
dst += CHACHA20_BLOCK_SIZE;
}
if (bytes) {
chacha20_block_generic(ctx, buf);
crypto_xor(dst, (u8 *)buf, bytes);
}
}
struct poly1305_ctx {
u8 opaque[24 * sizeof(u64)];
u32 nonce[4];
u8 data[POLY1305_BLOCK_SIZE];
size_t num;
} __aligned(8);
#if !(defined(CONFIG_X86_64) || defined(CONFIG_ARM) || defined(CONFIG_ARM64) || (defined(CONFIG_MIPS) && defined(CONFIG_64BIT)))
struct poly1305_internal {
u32 h[5];
u32 r[4];
};
static void poly1305_init_generic(void *ctx, const u8 key[16])
{
struct poly1305_internal *st = (struct poly1305_internal *)ctx;
/* h = 0 */
st->h[0] = 0;
st->h[1] = 0;
st->h[2] = 0;
st->h[3] = 0;
st->h[4] = 0;
/* r &= 0xffffffc0ffffffc0ffffffc0fffffff */
st->r[0] = le32_to_cpuvp(&key[ 0]) & 0x0fffffff;
st->r[1] = le32_to_cpuvp(&key[ 4]) & 0x0ffffffc;
st->r[2] = le32_to_cpuvp(&key[ 8]) & 0x0ffffffc;
st->r[3] = le32_to_cpuvp(&key[12]) & 0x0ffffffc;
}
static void poly1305_blocks_generic(void *ctx, const u8 *inp, size_t len, u32 padbit)
{
#define CONSTANT_TIME_CARRY(a,b) ((a ^ ((a ^ b) | ((a - b) ^ b))) >> (sizeof(a) * 8 - 1))
struct poly1305_internal *st = (struct poly1305_internal *)ctx;
u32 r0, r1, r2, r3;
u32 s1, s2, s3;
u32 h0, h1, h2, h3, h4, c;
u64 d0, d1, d2, d3;
r0 = st->r[0];
r1 = st->r[1];
r2 = st->r[2];
r3 = st->r[3];
s1 = r1 + (r1 >> 2);
s2 = r2 + (r2 >> 2);
s3 = r3 + (r3 >> 2);
h0 = st->h[0];
h1 = st->h[1];
h2 = st->h[2];
h3 = st->h[3];
h4 = st->h[4];
while (len >= POLY1305_BLOCK_SIZE) {
/* h += m[i] */
h0 = (u32)(d0 = (u64)h0 + le32_to_cpuvp(inp + 0));
h1 = (u32)(d1 = (u64)h1 + (d0 >> 32) + le32_to_cpuvp(inp + 4));
h2 = (u32)(d2 = (u64)h2 + (d1 >> 32) + le32_to_cpuvp(inp + 8));
h3 = (u32)(d3 = (u64)h3 + (d2 >> 32) + le32_to_cpuvp(inp + 12));
h4 += (u32)(d3 >> 32) + padbit;
/* h *= r "%" p, where "%" stands for "partial remainder" */
d0 = ((u64)h0 * r0) +
((u64)h1 * s3) +
((u64)h2 * s2) +
((u64)h3 * s1);
d1 = ((u64)h0 * r1) +
((u64)h1 * r0) +
((u64)h2 * s3) +
((u64)h3 * s2) +
(h4 * s1);
d2 = ((u64)h0 * r2) +
((u64)h1 * r1) +
((u64)h2 * r0) +
((u64)h3 * s3) +
(h4 * s2);
d3 = ((u64)h0 * r3) +
((u64)h1 * r2) +
((u64)h2 * r1) +
((u64)h3 * r0) +
(h4 * s3);
h4 = (h4 * r0);
/* last reduction step: */
/* a) h4:h0 = h4<<128 + d3<<96 + d2<<64 + d1<<32 + d0 */
h0 = (u32)d0;
h1 = (u32)(d1 += d0 >> 32);
h2 = (u32)(d2 += d1 >> 32);
h3 = (u32)(d3 += d2 >> 32);
h4 += (u32)(d3 >> 32);
/* b) (h4:h0 += (h4:h0>>130) * 5) %= 2^130 */
c = (h4 >> 2) + (h4 & ~3U);
h4 &= 3;
h0 += c;
h1 += (c = CONSTANT_TIME_CARRY(h0,c));
h2 += (c = CONSTANT_TIME_CARRY(h1,c));
h3 += (c = CONSTANT_TIME_CARRY(h2,c));
h4 += CONSTANT_TIME_CARRY(h3,c);
/*
* Occasional overflows to 3rd bit of h4 are taken care of
* "naturally". If after this point we end up at the top of
* this loop, then the overflow bit will be accounted for
* in next iteration. If we end up in poly1305_emit, then
* comparison to modulus below will still count as "carry
* into 131st bit", so that properly reduced value will be
* picked in conditional move.
*/
inp += POLY1305_BLOCK_SIZE;
len -= POLY1305_BLOCK_SIZE;
}
st->h[0] = h0;
st->h[1] = h1;
st->h[2] = h2;
st->h[3] = h3;
st->h[4] = h4;
#undef CONSTANT_TIME_CARRY
}
static void poly1305_emit_generic(void *ctx, u8 mac[16], const u32 nonce[4])
{
struct poly1305_internal *st = (struct poly1305_internal *)ctx;
__le32 *omac = (__force __le32 *)mac;
u32 h0, h1, h2, h3, h4;
u32 g0, g1, g2, g3, g4;
u64 t;
u32 mask;
h0 = st->h[0];
h1 = st->h[1];
h2 = st->h[2];
h3 = st->h[3];
h4 = st->h[4];
/* compare to modulus by computing h + -p */
g0 = (u32)(t = (u64)h0 + 5);
g1 = (u32)(t = (u64)h1 + (t >> 32));
g2 = (u32)(t = (u64)h2 + (t >> 32));
g3 = (u32)(t = (u64)h3 + (t >> 32));
g4 = h4 + (u32)(t >> 32);
/* if there was carry into 131st bit, h3:h0 = g3:g0 */
mask = 0 - (g4 >> 2);
g0 &= mask;
g1 &= mask;
g2 &= mask;
g3 &= mask;
mask = ~mask;
h0 = (h0 & mask) | g0;
h1 = (h1 & mask) | g1;
h2 = (h2 & mask) | g2;
h3 = (h3 & mask) | g3;
/* mac = (h + nonce) % (2^128) */
h0 = (u32)(t = (u64)h0 + nonce[0]);
h1 = (u32)(t = (u64)h1 + (t >> 32) + nonce[1]);
h2 = (u32)(t = (u64)h2 + (t >> 32) + nonce[2]);
h3 = (u32)(t = (u64)h3 + (t >> 32) + nonce[3]);
omac[0] = cpu_to_le32(h0);
omac[1] = cpu_to_le32(h1);
omac[2] = cpu_to_le32(h2);
omac[3] = cpu_to_le32(h3);
}
#endif
static void poly1305_init(struct poly1305_ctx *ctx, const u8 key[POLY1305_KEY_SIZE], bool have_simd)
{
ctx->nonce[0] = le32_to_cpuvp(&key[16]);
ctx->nonce[1] = le32_to_cpuvp(&key[20]);
ctx->nonce[2] = le32_to_cpuvp(&key[24]);
ctx->nonce[3] = le32_to_cpuvp(&key[28]);
#if defined(CONFIG_X86_64)
poly1305_init_x86_64(ctx->opaque, key);
#elif defined(CONFIG_ARM) || defined(CONFIG_ARM64)
poly1305_init_arm(ctx->opaque, key);
#elif defined(CONFIG_MIPS) && defined(CONFIG_64BIT)
poly1305_init_mips(ctx->opaque, key);
#else
poly1305_init_generic(ctx->opaque, key);
#endif
ctx->num = 0;
}
static inline void poly1305_blocks(void *ctx, const u8 *inp, size_t len, u32 padbit, bool have_simd)
{
#if defined(CONFIG_X86_64)
#ifdef CONFIG_AS_AVX512
if(chacha20poly1305_use_avx512 && have_simd)
poly1305_blocks_avx512(ctx, inp, len, padbit);
else
#endif
#ifdef CONFIG_AS_AVX2
if (chacha20poly1305_use_avx2 && have_simd)
poly1305_blocks_avx2(ctx, inp, len, padbit);
else
#endif
#ifdef CONFIG_AS_AVX
if (chacha20poly1305_use_avx && have_simd)
poly1305_blocks_avx(ctx, inp, len, padbit);
else
#endif
poly1305_blocks_x86_64(ctx, inp, len, padbit);
#elif defined(CONFIG_ARM) || defined(CONFIG_ARM64)
#if defined(ARM_USE_NEON)
if (chacha20poly1305_use_neon && have_simd)
poly1305_blocks_neon(ctx, inp, len, padbit);
else
#endif
poly1305_blocks_arm(ctx, inp, len, padbit);
#elif defined(CONFIG_MIPS) && defined(CONFIG_64BIT)
poly1305_blocks_mips(ctx, inp, len, padbit);
#else
poly1305_blocks_generic(ctx, inp, len, padbit);
#endif
}
static inline void poly1305_emit(void *ctx, u8 mac[16], const u32 nonce[4], bool have_simd)
{
#if defined(CONFIG_X86_64)
#ifdef CONFIG_AS_AVX512
if(chacha20poly1305_use_avx512 && have_simd)
poly1305_emit_avx(ctx, mac, nonce);
else
#endif
#ifdef CONFIG_AS_AVX2
if (chacha20poly1305_use_avx2 && have_simd)
poly1305_emit_avx(ctx, mac, nonce);
else
#endif
#ifdef CONFIG_AS_AVX
if (chacha20poly1305_use_avx && have_simd)
poly1305_emit_avx(ctx, mac, nonce);
else
#endif
poly1305_emit_x86_64(ctx, mac, nonce);
#elif defined(CONFIG_ARM) || defined(CONFIG_ARM64)
#if defined(ARM_USE_NEON)
if (chacha20poly1305_use_neon && have_simd)
poly1305_emit_neon(ctx, mac, nonce);
else
#endif
poly1305_emit_arm(ctx, mac, nonce);
#elif defined(CONFIG_MIPS) && defined(CONFIG_64BIT)
poly1305_emit_mips(ctx, mac, nonce);
#else
poly1305_emit_generic(ctx, mac, nonce);
#endif
}
static void poly1305_update(struct poly1305_ctx *ctx, const u8 *inp, size_t len, bool have_simd)
{
const size_t num = ctx->num;
size_t rem;
if (num) {
rem = POLY1305_BLOCK_SIZE - num;
if (len >= rem) {
memcpy(ctx->data + num, inp, rem);
poly1305_blocks(ctx->opaque, ctx->data, POLY1305_BLOCK_SIZE, 1, have_simd);
inp += rem;
len -= rem;
} else {
/* Still not enough data to process a block. */
memcpy(ctx->data + num, inp, len);
ctx->num = num + len;
return;
}
}
rem = len % POLY1305_BLOCK_SIZE;
len -= rem;
if (len >= POLY1305_BLOCK_SIZE) {
poly1305_blocks(ctx->opaque, inp, len, 1, have_simd);
inp += len;
}
if (rem)
memcpy(ctx->data, inp, rem);
ctx->num = rem;
}
static void poly1305_finish(struct poly1305_ctx *ctx, u8 mac[16], bool have_simd)
{
size_t num = ctx->num;
if (num) {
ctx->data[num++] = 1; /* pad bit */
while (num < POLY1305_BLOCK_SIZE)
ctx->data[num++] = 0;
poly1305_blocks(ctx->opaque, ctx->data, POLY1305_BLOCK_SIZE, 0, have_simd);
}
poly1305_emit(ctx->opaque, mac, ctx->nonce, have_simd);
/* zero out the state */
memzero_explicit(ctx, sizeof(*ctx));
}
static const u8 pad0[16] = { 0 };
static struct crypto_alg chacha20_alg = {
.cra_blocksize = 1,
.cra_alignmask = sizeof(u32) - 1
};
static struct crypto_blkcipher chacha20_cipher = {
.base = {
.__crt_alg = &chacha20_alg
}
};
static struct blkcipher_desc chacha20_desc = {
.tfm = &chacha20_cipher
};
static inline void __chacha20poly1305_encrypt(u8 *dst, const u8 *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u64 nonce, const u8 key[CHACHA20POLY1305_KEYLEN],
bool have_simd)
{
__le64 len, le_nonce = cpu_to_le64(nonce);
struct poly1305_ctx poly1305_state;
struct chacha20_ctx chacha20_state = chacha20_initial_state(key, (u8 *)&le_nonce);
u8 block0[CHACHA20_BLOCK_SIZE] = { 0 };
chacha20_crypt(&chacha20_state, block0, block0, sizeof(block0), have_simd);
poly1305_init(&poly1305_state, block0, have_simd);
memzero_explicit(block0, sizeof(block0));
poly1305_update(&poly1305_state, ad, ad_len, have_simd);
poly1305_update(&poly1305_state, pad0, (0x10 - ad_len) & 0xf, have_simd);
chacha20_crypt(&chacha20_state, dst, src, src_len, have_simd);
poly1305_update(&poly1305_state, dst, src_len, have_simd);
poly1305_update(&poly1305_state, pad0, (0x10 - src_len) & 0xf, have_simd);
len = cpu_to_le64(ad_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
len = cpu_to_le64(src_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
poly1305_finish(&poly1305_state, dst + src_len, have_simd);
memzero_explicit(&chacha20_state, sizeof(chacha20_state));
}
void chacha20poly1305_encrypt(u8 *dst, const u8 *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u64 nonce, const u8 key[CHACHA20POLY1305_KEYLEN])
{
bool have_simd;
have_simd = chacha20poly1305_init_simd();
__chacha20poly1305_encrypt(dst, src, src_len, ad, ad_len, nonce, key, have_simd);
chacha20poly1305_deinit_simd(have_simd);
}
bool chacha20poly1305_encrypt_sg(struct scatterlist *dst, struct scatterlist *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u64 nonce, const u8 key[CHACHA20POLY1305_KEYLEN],
bool have_simd)
{
__le64 len, le_nonce = cpu_to_le64(nonce);
struct poly1305_ctx poly1305_state;
struct chacha20_ctx chacha20_state = chacha20_initial_state(key, (u8 *)&le_nonce);
int ret = 0;
struct blkcipher_walk walk;
u8 block0[CHACHA20_BLOCK_SIZE] = { 0 };
u8 mac[POLY1305_MAC_SIZE];
chacha20_crypt(&chacha20_state, block0, block0, sizeof(block0), have_simd);
poly1305_init(&poly1305_state, block0, have_simd);
memzero_explicit(block0, sizeof(block0));
poly1305_update(&poly1305_state, ad, ad_len, have_simd);
poly1305_update(&poly1305_state, pad0, (0x10 - ad_len) & 0xf, have_simd);
if (likely(src_len)) {
blkcipher_walk_init(&walk, dst, src, src_len);
ret = blkcipher_walk_virt_block(&chacha20_desc, &walk, CHACHA20_BLOCK_SIZE);
while (walk.nbytes >= CHACHA20_BLOCK_SIZE) {
size_t chunk_len = rounddown(walk.nbytes, CHACHA20_BLOCK_SIZE);
chacha20_crypt(&chacha20_state, walk.dst.virt.addr, walk.src.virt.addr, chunk_len, have_simd);
poly1305_update(&poly1305_state, walk.dst.virt.addr, chunk_len, have_simd);
ret = blkcipher_walk_done(&chacha20_desc, &walk, walk.nbytes % CHACHA20_BLOCK_SIZE);
}
if (walk.nbytes) {
chacha20_crypt(&chacha20_state, walk.dst.virt.addr, walk.src.virt.addr, walk.nbytes, have_simd);
poly1305_update(&poly1305_state, walk.dst.virt.addr, walk.nbytes, have_simd);
ret = blkcipher_walk_done(&chacha20_desc, &walk, 0);
}
}
if (unlikely(ret))
goto err;
poly1305_update(&poly1305_state, pad0, (0x10 - src_len) & 0xf, have_simd);
len = cpu_to_le64(ad_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
len = cpu_to_le64(src_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
poly1305_finish(&poly1305_state, mac, have_simd);
scatterwalk_map_and_copy(mac, dst, src_len, sizeof(mac), 1);
err:
memzero_explicit(&chacha20_state, sizeof(chacha20_state));
memzero_explicit(mac, sizeof(mac));
return !ret;
}
static inline bool __chacha20poly1305_decrypt(u8 *dst, const u8 *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u64 nonce, const u8 key[CHACHA20POLY1305_KEYLEN],
bool have_simd)
{
__le64 len, le_nonce = cpu_to_le64(nonce);
struct poly1305_ctx poly1305_state;
struct chacha20_ctx chacha20_state = chacha20_initial_state(key, (u8 *)&le_nonce);
int ret;
u8 block0[CHACHA20_BLOCK_SIZE] = { 0 };
u8 mac[POLY1305_MAC_SIZE];
size_t dst_len;
if (unlikely(src_len < POLY1305_MAC_SIZE))
return false;
chacha20_crypt(&chacha20_state, block0, block0, sizeof(block0), have_simd);
poly1305_init(&poly1305_state, block0, have_simd);
memzero_explicit(block0, sizeof(block0));
poly1305_update(&poly1305_state, ad, ad_len, have_simd);
poly1305_update(&poly1305_state, pad0, (0x10 - ad_len) & 0xf, have_simd);
dst_len = src_len - POLY1305_MAC_SIZE;
poly1305_update(&poly1305_state, src, dst_len, have_simd);
poly1305_update(&poly1305_state, pad0, (0x10 - dst_len) & 0xf, have_simd);
len = cpu_to_le64(ad_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
len = cpu_to_le64(dst_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
poly1305_finish(&poly1305_state, mac, have_simd);
ret = crypto_memneq(mac, src + dst_len, POLY1305_MAC_SIZE);
memzero_explicit(mac, POLY1305_MAC_SIZE);
if (likely(!ret))
chacha20_crypt(&chacha20_state, dst, src, dst_len, have_simd);
memzero_explicit(&chacha20_state, sizeof(chacha20_state));
return !ret;
}
bool chacha20poly1305_decrypt(u8 *dst, const u8 *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u64 nonce, const u8 key[CHACHA20POLY1305_KEYLEN])
{
bool have_simd, ret;
have_simd = chacha20poly1305_init_simd();
ret = __chacha20poly1305_decrypt(dst, src, src_len, ad, ad_len, nonce, key, have_simd);
chacha20poly1305_deinit_simd(have_simd);
return ret;
}
bool chacha20poly1305_decrypt_sg(struct scatterlist *dst, struct scatterlist *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u64 nonce, const u8 key[CHACHA20POLY1305_KEYLEN],
bool have_simd)
{
__le64 len, le_nonce = cpu_to_le64(nonce);
struct poly1305_ctx poly1305_state;
struct chacha20_ctx chacha20_state = chacha20_initial_state(key, (u8 *)&le_nonce);
struct blkcipher_walk walk;
int ret = 0;
u8 block0[CHACHA20_BLOCK_SIZE] = { 0 };
u8 read_mac[POLY1305_MAC_SIZE], computed_mac[POLY1305_MAC_SIZE];
size_t dst_len;
if (unlikely(src_len < POLY1305_MAC_SIZE))
return false;
chacha20_crypt(&chacha20_state, block0, block0, sizeof(block0), have_simd);
poly1305_init(&poly1305_state, block0, have_simd);
memzero_explicit(block0, sizeof(block0));
poly1305_update(&poly1305_state, ad, ad_len, have_simd);
poly1305_update(&poly1305_state, pad0, (0x10 - ad_len) & 0xf, have_simd);
dst_len = src_len - POLY1305_MAC_SIZE;
if (likely(dst_len)) {
blkcipher_walk_init(&walk, dst, src, dst_len);
ret = blkcipher_walk_virt_block(&chacha20_desc, &walk, CHACHA20_BLOCK_SIZE);
while (walk.nbytes >= CHACHA20_BLOCK_SIZE) {
size_t chunk_len = rounddown(walk.nbytes, CHACHA20_BLOCK_SIZE);
poly1305_update(&poly1305_state, walk.src.virt.addr, chunk_len, have_simd);
chacha20_crypt(&chacha20_state, walk.dst.virt.addr, walk.src.virt.addr, chunk_len, have_simd);
ret = blkcipher_walk_done(&chacha20_desc, &walk, walk.nbytes % CHACHA20_BLOCK_SIZE);
}
if (walk.nbytes) {
poly1305_update(&poly1305_state, walk.src.virt.addr, walk.nbytes, have_simd);
chacha20_crypt(&chacha20_state, walk.dst.virt.addr, walk.src.virt.addr, walk.nbytes, have_simd);
ret = blkcipher_walk_done(&chacha20_desc, &walk, 0);
}
}
if (unlikely(ret))
goto err;
poly1305_update(&poly1305_state, pad0, (0x10 - dst_len) & 0xf, have_simd);
len = cpu_to_le64(ad_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
len = cpu_to_le64(dst_len);
poly1305_update(&poly1305_state, (u8 *)&len, sizeof(len), have_simd);
poly1305_finish(&poly1305_state, computed_mac, have_simd);
scatterwalk_map_and_copy(read_mac, src, dst_len, POLY1305_MAC_SIZE, 0);
ret = crypto_memneq(read_mac, computed_mac, POLY1305_MAC_SIZE);
err:
memzero_explicit(read_mac, POLY1305_MAC_SIZE);
memzero_explicit(computed_mac, POLY1305_MAC_SIZE);
memzero_explicit(&chacha20_state, sizeof(chacha20_state));
return !ret;
}
void xchacha20poly1305_encrypt(u8 *dst, const u8 *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u8 nonce[XCHACHA20POLY1305_NONCELEN],
const u8 key[CHACHA20POLY1305_KEYLEN])
{
bool have_simd = chacha20poly1305_init_simd();
u8 derived_key[CHACHA20POLY1305_KEYLEN] __aligned(16);
hchacha20(derived_key, nonce, key, have_simd);
__chacha20poly1305_encrypt(dst, src, src_len, ad, ad_len, le64_to_cpuvp(nonce + 16), derived_key, have_simd);
memzero_explicit(derived_key, CHACHA20POLY1305_KEYLEN);
chacha20poly1305_deinit_simd(have_simd);
}
bool xchacha20poly1305_decrypt(u8 *dst, const u8 *src, const size_t src_len,
const u8 *ad, const size_t ad_len,
const u8 nonce[XCHACHA20POLY1305_NONCELEN],
const u8 key[CHACHA20POLY1305_KEYLEN])
{
bool ret, have_simd = chacha20poly1305_init_simd();
u8 derived_key[CHACHA20POLY1305_KEYLEN] __aligned(16);
hchacha20(derived_key, nonce, key, have_simd);
ret = __chacha20poly1305_decrypt(dst, src, src_len, ad, ad_len, le64_to_cpuvp(nonce + 16), derived_key, have_simd);
memzero_explicit(derived_key, CHACHA20POLY1305_KEYLEN);
chacha20poly1305_deinit_simd(have_simd);
return ret;
}
#include "../selftest/chacha20poly1305.h"
#include "../selftest/poly1305.h"
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