@@ -327,10 +327,362 @@ SYM_TYPED_FUNC_START(sha256_ni_transform)
.Ldone_hash:
RET
SYM_FUNC_END(sha256_ni_transform)
+#undef DIGEST_PTR
+#undef DATA_PTR
+#undef NUM_BLKS
+#undef SHA256CONSTANTS
+#undef MSG
+#undef STATE0
+#undef STATE1
+#undef MSG0
+#undef MSG1
+#undef MSG2
+#undef MSG3
+#undef TMP
+#undef SHUF_MASK
+#undef ABEF_SAVE
+#undef CDGH_SAVE
+
+// parameters for __sha256_ni_finup2x()
+#define SCTX %rdi
+#define DATA1 %rsi
+#define DATA2 %rdx
+#define LEN %ecx
+#define LEN8 %cl
+#define LEN64 %rcx
+#define OUT1 %r8
+#define OUT2 %r9
+
+// other scalar variables
+#define SHA256CONSTANTS %rax
+#define COUNT %r10
+#define COUNT32 %r10d
+#define FINAL_STEP %r11d
+
+// rbx is used as a temporary.
+
+#define MSG %xmm0
+#define STATE0_A %xmm1
+#define STATE1_A %xmm2
+#define STATE0_B %xmm3
+#define STATE1_B %xmm4
+#define TMP_A %xmm5
+#define TMP_B %xmm6
+#define MSG0_A %xmm7
+#define MSG1_A %xmm8
+#define MSG2_A %xmm9
+#define MSG3_A %xmm10
+#define MSG0_B %xmm11
+#define MSG1_B %xmm12
+#define MSG2_B %xmm13
+#define MSG3_B %xmm14
+#define SHUF_MASK %xmm15
+
+#define OFFSETOF_STATE 0 // offsetof(struct sha256_state, state)
+#define OFFSETOF_COUNT 32 // offsetof(struct sha256_state, count)
+#define OFFSETOF_BUF 40 // offsetof(struct sha256_state, buf)
+
+.macro do_4rounds_2x i, m0_a, m1_a, m2_a, m3_a, m0_b, m1_b, m2_b, m3_b
+ movdqa (\i-32)*4(SHA256CONSTANTS), TMP_A
+ movdqa TMP_A, TMP_B
+ paddd \m0_a, TMP_A
+ paddd \m0_b, TMP_B
+ movdqa TMP_A, MSG
+ sha256rnds2 STATE0_A, STATE1_A
+ movdqa TMP_B, MSG
+ sha256rnds2 STATE0_B, STATE1_B
+ pshufd $0x0E, TMP_A, MSG
+ sha256rnds2 STATE1_A, STATE0_A
+ pshufd $0x0E, TMP_B, MSG
+ sha256rnds2 STATE1_B, STATE0_B
+.if \i >= 12 && \i < 60
+ movdqa \m0_a, TMP_A
+ movdqa \m0_b, TMP_B
+ palignr $4, \m3_a, TMP_A
+ palignr $4, \m3_b, TMP_B
+ paddd TMP_A, \m1_a
+ paddd TMP_B, \m1_b
+ sha256msg2 \m0_a, \m1_a
+ sha256msg2 \m0_b, \m1_b
+.endif
+.if \i >= 4 && \i < 52
+ sha256msg1 \m0_a, \m3_a
+ sha256msg1 \m0_b, \m3_b
+.endif
+.endm
+
+//
+// void __sha256_ni_finup2x(const struct sha256_state *sctx,
+// const u8 *data1, const u8 *data2, int len,
+// u8 out1[SHA256_DIGEST_SIZE],
+// u8 out2[SHA256_DIGEST_SIZE]);
+//
+// This function computes the SHA-256 digests of two messages |data1| and
+// |data2| that are both |len| bytes long, starting from the initial state
+// |sctx|. |len| must be at least SHA256_BLOCK_SIZE.
+//
+// The instructions for the two SHA-256 operations are interleaved. On many
+// CPUs, this is almost twice as fast as hashing each message individually due
+// to taking better advantage of the CPU's SHA-256 and SIMD throughput.
+//
+SYM_FUNC_START(__sha256_ni_finup2x)
+ // Allocate 128 bytes of stack space, 16-byte aligned.
+ push %rbx
+ push %rbp
+ mov %rsp, %rbp
+ sub $128, %rsp
+ and $~15, %rsp
+
+ // Load the shuffle mask for swapping the endianness of 32-bit words.
+ movdqa PSHUFFLE_BYTE_FLIP_MASK(%rip), SHUF_MASK
+
+ // Set up pointer to the round constants.
+ lea K256+32*4(%rip), SHA256CONSTANTS
+
+ // Initially we're not processing the final blocks.
+ xor FINAL_STEP, FINAL_STEP
+
+ // Load the initial state from sctx->state.
+ movdqu OFFSETOF_STATE+0*16(SCTX), STATE0_A // DCBA
+ movdqu OFFSETOF_STATE+1*16(SCTX), STATE1_A // HGFE
+ movdqa STATE0_A, TMP_A
+ punpcklqdq STATE1_A, STATE0_A // FEBA
+ punpckhqdq TMP_A, STATE1_A // DCHG
+ pshufd $0x1B, STATE0_A, STATE0_A // ABEF
+ pshufd $0xB1, STATE1_A, STATE1_A // CDGH
+
+ // Load sctx->count. Take the mod 64 of it to get the number of bytes
+ // that are buffered in sctx->buf. Also save it in a register with LEN
+ // added to it.
+ mov LEN, LEN
+ mov OFFSETOF_COUNT(SCTX), %rbx
+ lea (%rbx, LEN64, 1), COUNT
+ and $63, %ebx
+ jz .Lfinup2x_enter_loop // No bytes buffered?
+
+ // %ebx bytes (1 to 63) are currently buffered in sctx->buf. Load them
+ // followed by the first 64 - %ebx bytes of data. Since LEN >= 64, we
+ // just load 64 bytes from each of sctx->buf, DATA1, and DATA2
+ // unconditionally and rearrange the data as needed.
+
+ movdqu OFFSETOF_BUF+0*16(SCTX), MSG0_A
+ movdqu OFFSETOF_BUF+1*16(SCTX), MSG1_A
+ movdqu OFFSETOF_BUF+2*16(SCTX), MSG2_A
+ movdqu OFFSETOF_BUF+3*16(SCTX), MSG3_A
+ movdqa MSG0_A, 0*16(%rsp)
+ movdqa MSG1_A, 1*16(%rsp)
+ movdqa MSG2_A, 2*16(%rsp)
+ movdqa MSG3_A, 3*16(%rsp)
+
+ movdqu 0*16(DATA1), MSG0_A
+ movdqu 1*16(DATA1), MSG1_A
+ movdqu 2*16(DATA1), MSG2_A
+ movdqu 3*16(DATA1), MSG3_A
+ movdqu MSG0_A, 0*16(%rsp,%rbx)
+ movdqu MSG1_A, 1*16(%rsp,%rbx)
+ movdqu MSG2_A, 2*16(%rsp,%rbx)
+ movdqu MSG3_A, 3*16(%rsp,%rbx)
+ movdqa 0*16(%rsp), MSG0_A
+ movdqa 1*16(%rsp), MSG1_A
+ movdqa 2*16(%rsp), MSG2_A
+ movdqa 3*16(%rsp), MSG3_A
+
+ movdqu 0*16(DATA2), MSG0_B
+ movdqu 1*16(DATA2), MSG1_B
+ movdqu 2*16(DATA2), MSG2_B
+ movdqu 3*16(DATA2), MSG3_B
+ movdqu MSG0_B, 0*16(%rsp,%rbx)
+ movdqu MSG1_B, 1*16(%rsp,%rbx)
+ movdqu MSG2_B, 2*16(%rsp,%rbx)
+ movdqu MSG3_B, 3*16(%rsp,%rbx)
+ movdqa 0*16(%rsp), MSG0_B
+ movdqa 1*16(%rsp), MSG1_B
+ movdqa 2*16(%rsp), MSG2_B
+ movdqa 3*16(%rsp), MSG3_B
+
+ sub $64, %rbx // rbx = buffered - 64
+ sub %rbx, DATA1 // DATA1 += 64 - buffered
+ sub %rbx, DATA2 // DATA2 += 64 - buffered
+ add %ebx, LEN // LEN += buffered - 64
+ movdqa STATE0_A, STATE0_B
+ movdqa STATE1_A, STATE1_B
+ jmp .Lfinup2x_loop_have_data
+
+.Lfinup2x_enter_loop:
+ sub $64, LEN
+ movdqa STATE0_A, STATE0_B
+ movdqa STATE1_A, STATE1_B
+.Lfinup2x_loop:
+ // Load the next two data blocks.
+ movdqu 0*16(DATA1), MSG0_A
+ movdqu 0*16(DATA2), MSG0_B
+ movdqu 1*16(DATA1), MSG1_A
+ movdqu 1*16(DATA2), MSG1_B
+ movdqu 2*16(DATA1), MSG2_A
+ movdqu 2*16(DATA2), MSG2_B
+ movdqu 3*16(DATA1), MSG3_A
+ movdqu 3*16(DATA2), MSG3_B
+ add $64, DATA1
+ add $64, DATA2
+.Lfinup2x_loop_have_data:
+ // Convert the words of the data blocks from big endian.
+ pshufb SHUF_MASK, MSG0_A
+ pshufb SHUF_MASK, MSG0_B
+ pshufb SHUF_MASK, MSG1_A
+ pshufb SHUF_MASK, MSG1_B
+ pshufb SHUF_MASK, MSG2_A
+ pshufb SHUF_MASK, MSG2_B
+ pshufb SHUF_MASK, MSG3_A
+ pshufb SHUF_MASK, MSG3_B
+.Lfinup2x_loop_have_bswapped_data:
+
+ // Save the original state for each block.
+ movdqa STATE0_A, 0*16(%rsp)
+ movdqa STATE0_B, 1*16(%rsp)
+ movdqa STATE1_A, 2*16(%rsp)
+ movdqa STATE1_B, 3*16(%rsp)
+
+ // Do the SHA-256 rounds on each block.
+.irp i, 0, 16, 32, 48
+ do_4rounds_2x (\i + 0), MSG0_A, MSG1_A, MSG2_A, MSG3_A \
+ MSG0_B, MSG1_B, MSG2_B, MSG3_B
+ do_4rounds_2x (\i + 4), MSG1_A, MSG2_A, MSG3_A, MSG0_A \
+ MSG1_B, MSG2_B, MSG3_B, MSG0_B
+ do_4rounds_2x (\i + 8), MSG2_A, MSG3_A, MSG0_A, MSG1_A \
+ MSG2_B, MSG3_B, MSG0_B, MSG1_B
+ do_4rounds_2x (\i + 12), MSG3_A, MSG0_A, MSG1_A, MSG2_A \
+ MSG3_B, MSG0_B, MSG1_B, MSG2_B
+.endr
+
+ // Add the original state for each block.
+ paddd 0*16(%rsp), STATE0_A
+ paddd 1*16(%rsp), STATE0_B
+ paddd 2*16(%rsp), STATE1_A
+ paddd 3*16(%rsp), STATE1_B
+
+ // Update LEN and loop back if more blocks remain.
+ sub $64, LEN
+ jge .Lfinup2x_loop
+
+ // Check if any final blocks need to be handled.
+ // FINAL_STEP = 2: all done
+ // FINAL_STEP = 1: need to do count-only padding block
+ // FINAL_STEP = 0: need to do the block with 0x80 padding byte
+ cmp $1, FINAL_STEP
+ jg .Lfinup2x_done
+ je .Lfinup2x_finalize_countonly
+ add $64, LEN
+ jz .Lfinup2x_finalize_blockaligned
+
+ // Not block-aligned; 1 <= len <= 63 data bytes remain. Pad the block.
+ mov $64, %ebx
+ sub LEN, %ebx // ebx = 64 - LEN
+ sub %rbx, DATA1 // DATA1 -= 64 - LEN
+ sub %rbx, DATA2 // DATA2 -= 64 - LEN
+ movdqu 0*16(DATA1), MSG0_A
+ movdqu 1*16(DATA1), MSG1_A
+ movdqu 2*16(DATA1), MSG2_A
+ movdqu 3*16(DATA1), MSG3_A
+ movdqa MSG0_A, 0*16(%rsp)
+ movdqa MSG1_A, 1*16(%rsp)
+ movdqa MSG2_A, 2*16(%rsp)
+ movdqa MSG3_A, 3*16(%rsp)
+ mov $0x80, FINAL_STEP // using FINAL_STEP as a temporary
+ movd FINAL_STEP, MSG0_A
+ pxor MSG1_A, MSG1_A
+ movdqa MSG0_A, 4*16(%rsp)
+ movdqa MSG1_A, 5*16(%rsp)
+ movdqa MSG1_A, 6*16(%rsp)
+ movdqa MSG1_A, 7*16(%rsp)
+ cmp $56, LEN
+ jge 1f // will COUNT spill into its own block?
+ shl $3, COUNT
+ bswap COUNT
+ mov COUNT, 56(%rsp,%rbx)
+ mov $2, FINAL_STEP // won't need count-only block
+ jmp 2f
+1:
+ mov $1, FINAL_STEP // will need count-only block
+2:
+ movdqu 0*16(%rsp,%rbx), MSG0_A
+ movdqu 1*16(%rsp,%rbx), MSG1_A
+ movdqu 2*16(%rsp,%rbx), MSG2_A
+ movdqu 3*16(%rsp,%rbx), MSG3_A
+
+ movdqu 0*16(DATA2), MSG0_B
+ movdqu 1*16(DATA2), MSG1_B
+ movdqu 2*16(DATA2), MSG2_B
+ movdqu 3*16(DATA2), MSG3_B
+ movdqa MSG0_B, 0*16(%rsp)
+ movdqa MSG1_B, 1*16(%rsp)
+ movdqa MSG2_B, 2*16(%rsp)
+ movdqa MSG3_B, 3*16(%rsp)
+ movdqu 0*16(%rsp,%rbx), MSG0_B
+ movdqu 1*16(%rsp,%rbx), MSG1_B
+ movdqu 2*16(%rsp,%rbx), MSG2_B
+ movdqu 3*16(%rsp,%rbx), MSG3_B
+ jmp .Lfinup2x_loop_have_data
+
+ // Prepare a padding block, either:
+ //
+ // {0x80, 0, 0, 0, ..., count (as __be64)}
+ // This is for a block aligned message.
+ //
+ // { 0, 0, 0, 0, ..., count (as __be64)}
+ // This is for a message whose length mod 64 is >= 56.
+ //
+ // Pre-swap the endianness of the words.
+.Lfinup2x_finalize_countonly:
+ pxor MSG0_A, MSG0_A
+ jmp 1f
+
+.Lfinup2x_finalize_blockaligned:
+ mov $0x80000000, %ebx
+ movd %ebx, MSG0_A
+1:
+ pxor MSG1_A, MSG1_A
+ pxor MSG2_A, MSG2_A
+ ror $29, COUNT
+ movq COUNT, MSG3_A
+ pslldq $8, MSG3_A
+ movdqa MSG0_A, MSG0_B
+ pxor MSG1_B, MSG1_B
+ pxor MSG2_B, MSG2_B
+ movdqa MSG3_A, MSG3_B
+ mov $2, FINAL_STEP
+ jmp .Lfinup2x_loop_have_bswapped_data
+
+.Lfinup2x_done:
+ // Write the two digests with all bytes in the correct order.
+ movdqa STATE0_A, TMP_A
+ movdqa STATE0_B, TMP_B
+ punpcklqdq STATE1_A, STATE0_A // GHEF
+ punpcklqdq STATE1_B, STATE0_B
+ punpckhqdq TMP_A, STATE1_A // ABCD
+ punpckhqdq TMP_B, STATE1_B
+ pshufd $0xB1, STATE0_A, STATE0_A // HGFE
+ pshufd $0xB1, STATE0_B, STATE0_B
+ pshufd $0x1B, STATE1_A, STATE1_A // DCBA
+ pshufd $0x1B, STATE1_B, STATE1_B
+ pshufb SHUF_MASK, STATE0_A
+ pshufb SHUF_MASK, STATE0_B
+ pshufb SHUF_MASK, STATE1_A
+ pshufb SHUF_MASK, STATE1_B
+ movdqu STATE0_A, 1*16(OUT1)
+ movdqu STATE0_B, 1*16(OUT2)
+ movdqu STATE1_A, 0*16(OUT1)
+ movdqu STATE1_B, 0*16(OUT2)
+
+ mov %rbp, %rsp
+ pop %rbp
+ pop %rbx
+ RET
+SYM_FUNC_END(__sha256_ni_finup2x)
+
.section .rodata.cst256.K256, "aM", @progbits, 256
.align 64
K256:
.long 0x428a2f98,0x71374491,0xb5c0fbcf,0xe9b5dba5
.long 0x3956c25b,0x59f111f1,0x923f82a4,0xab1c5ed5
@@ -331,10 +331,15 @@ static void unregister_sha256_avx2(void)
#ifdef CONFIG_AS_SHA256_NI
asmlinkage void sha256_ni_transform(struct sha256_state *digest,
const u8 *data, int rounds);
+asmlinkage void __sha256_ni_finup2x(const struct sha256_state *sctx,
+ const u8 *data1, const u8 *data2, int len,
+ u8 out1[SHA256_DIGEST_SIZE],
+ u8 out2[SHA256_DIGEST_SIZE]);
+
static int sha256_ni_update(struct shash_desc *desc, const u8 *data,
unsigned int len)
{
return _sha256_update(desc, data, len, sha256_ni_transform);
}
@@ -355,17 +360,52 @@ static int sha256_ni_digest(struct shash_desc *desc, const u8 *data,
{
return sha256_base_init(desc) ?:
sha256_ni_finup(desc, data, len, out);
}
+static noinline_for_stack int
+sha256_finup2x_fallback(struct sha256_state *sctx, const u8 *data1,
+ const u8 *data2, unsigned int len, u8 *out1, u8 *out2)
+{
+ struct sha256_state sctx2 = *sctx;
+
+ sha256_update(sctx, data1, len);
+ sha256_final(sctx, out1);
+ sha256_update(&sctx2, data2, len);
+ sha256_final(&sctx2, out2);
+ return 0;
+}
+
+static int sha256_ni_finup2x(struct shash_desc *desc,
+ const u8 *data1, const u8 *data2,
+ unsigned int len, u8 *out1, u8 *out2)
+{
+ struct sha256_state *sctx = shash_desc_ctx(desc);
+
+ if (unlikely(!crypto_simd_usable() || len < SHA256_BLOCK_SIZE))
+ return sha256_finup2x_fallback(sctx, data1, data2, len,
+ out1, out2);
+
+ /* __sha256_ni_finup2x() assumes the following offsets. */
+ BUILD_BUG_ON(offsetof(struct sha256_state, state) != 0);
+ BUILD_BUG_ON(offsetof(struct sha256_state, count) != 32);
+ BUILD_BUG_ON(offsetof(struct sha256_state, buf) != 40);
+
+ kernel_fpu_begin();
+ __sha256_ni_finup2x(sctx, data1, data2, len, out1, out2);
+ kernel_fpu_end();
+ return 0;
+}
+
static struct shash_alg sha256_ni_algs[] = { {
.digestsize = SHA256_DIGEST_SIZE,
.init = sha256_base_init,
.update = sha256_ni_update,
.final = sha256_ni_final,
.finup = sha256_ni_finup,
.digest = sha256_ni_digest,
+ .finup2x = sha256_ni_finup2x,
.descsize = sizeof(struct sha256_state),
.base = {
.cra_name = "sha256",
.cra_driver_name = "sha256-ni",
.cra_priority = 250,