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linux/debian/patches/patchset-pf/crypto/0001-crypto-x86-crc32c-simplify-code-for-handling-fewer-t.patch

182 lines
5.5 KiB
Diff

From 0a957679a29a06fb2e3971615ff9f05f6becb941 Mon Sep 17 00:00:00 2001
From: Eric Biggers <ebiggers@google.com>
Date: Sun, 13 Oct 2024 21:06:49 -0700
Subject: crypto: x86/crc32c - simplify code for handling fewer than 200 bytes
The assembly code in crc32c-pcl-intel-asm_64.S is invoked only for
lengths >= 512, due to the overhead of saving and restoring FPU state.
Therefore, it is unnecessary for this code to be excessively "optimized"
for lengths < 200. Eliminate the excessive unrolling of this part of
the code and use a more straightforward qword-at-a-time loop.
Note: the part of the code in question is not entirely redundant, as it
is still used to process any remainder mod 24, as well as any remaining
data when fewer than 200 bytes remain after least one 3072-byte chunk.
Signed-off-by: Eric Biggers <ebiggers@google.com>
---
arch/x86/crypto/crc32c-pcl-intel-asm_64.S | 116 ++++++----------------
1 file changed, 33 insertions(+), 83 deletions(-)
--- a/arch/x86/crypto/crc32c-pcl-intel-asm_64.S
+++ b/arch/x86/crypto/crc32c-pcl-intel-asm_64.S
@@ -56,20 +56,10 @@
.quad .Lcrc_\i
.endm
-.macro JNC_LESS_THAN j
- jnc .Lless_than_\j
-.endm
-
-# Define threshold where buffers are considered "small" and routed to more
-# efficient "by-1" code. This "by-1" code only handles up to 255 bytes, so
-# SMALL_SIZE can be no larger than 255.
-
+# Define threshold below which buffers are considered "small" and routed to
+# regular CRC code that does not interleave the CRC instructions.
#define SMALL_SIZE 200
-.if (SMALL_SIZE > 255)
-.error "SMALL_ SIZE must be < 256"
-.endif
-
# unsigned int crc_pcl(u8 *buffer, int len, unsigned int crc_init);
.text
@@ -100,25 +90,18 @@ SYM_FUNC_START(crc_pcl)
## Move crc_init for Linux to a different
mov crc_init_arg, crc_init
+ mov %bufp, bufptmp # rdi = *buf
+ cmp $SMALL_SIZE, len
+ jb .Lsmall
+
################################################################
## 1) ALIGN:
################################################################
-
- mov %bufp, bufptmp # rdi = *buf
neg %bufp
and $7, %bufp # calculate the unalignment amount of
# the address
je .Lproc_block # Skip if aligned
- ## If len is less than 8 and we're unaligned, we need to jump
- ## to special code to avoid reading beyond the end of the buffer
- cmp $8, len
- jae .Ldo_align
- # less_than_8 expects length in upper 3 bits of len_dw
- # less_than_8_post_shl1 expects length = carryflag * 8 + len_dw[31:30]
- shl $32-3+1, len_dw
- jmp .Lless_than_8_post_shl1
-
.Ldo_align:
#### Calculate CRC of unaligned bytes of the buffer (if any)
movq (bufptmp), tmp # load a quadward from the buffer
@@ -144,9 +127,6 @@ SYM_FUNC_START(crc_pcl)
jae .Lfull_block
.Lcontinue_block:
- cmpq $SMALL_SIZE, len
- jb .Lsmall
-
## len < 128*24
movq $2731, %rax # 2731 = ceil(2^16 / 24)
mul len_dw
@@ -243,68 +223,38 @@ LABEL crc_ 0
mov tmp, len
cmp $128*24, tmp
jae .Lfull_block
- cmp $24, tmp
+ cmp $SMALL_SIZE, tmp
jae .Lcontinue_block
-.Lless_than_24:
- shl $32-4, len_dw # less_than_16 expects length
- # in upper 4 bits of len_dw
- jnc .Lless_than_16
- crc32q (bufptmp), crc_init
- crc32q 8(bufptmp), crc_init
- jz .Ldo_return
- add $16, bufptmp
- # len is less than 8 if we got here
- # less_than_8 expects length in upper 3 bits of len_dw
- # less_than_8_post_shl1 expects length = carryflag * 8 + len_dw[31:30]
- shl $2, len_dw
- jmp .Lless_than_8_post_shl1
-
#######################################################################
- ## 6) LESS THAN 256-bytes REMAIN AT THIS POINT (8-bits of len are full)
+ ## 6) Process any remainder without interleaving:
#######################################################################
.Lsmall:
- shl $32-8, len_dw # Prepare len_dw for less_than_256
- j=256
-.rept 5 # j = {256, 128, 64, 32, 16}
-.altmacro
-LABEL less_than_ %j # less_than_j: Length should be in
- # upper lg(j) bits of len_dw
- j=(j/2)
- shl $1, len_dw # Get next MSB
- JNC_LESS_THAN %j
-.noaltmacro
- i=0
-.rept (j/8)
- crc32q i(bufptmp), crc_init # Compute crc32 of 8-byte data
- i=i+8
-.endr
- jz .Ldo_return # Return if remaining length is zero
- add $j, bufptmp # Advance buf
-.endr
-
-.Lless_than_8: # Length should be stored in
- # upper 3 bits of len_dw
- shl $1, len_dw
-.Lless_than_8_post_shl1:
- jnc .Lless_than_4
- crc32l (bufptmp), crc_init_dw # CRC of 4 bytes
- jz .Ldo_return # return if remaining data is zero
- add $4, bufptmp
-.Lless_than_4: # Length should be stored in
- # upper 2 bits of len_dw
- shl $1, len_dw
- jnc .Lless_than_2
- crc32w (bufptmp), crc_init_dw # CRC of 2 bytes
- jz .Ldo_return # return if remaining data is zero
- add $2, bufptmp
-.Lless_than_2: # Length should be stored in the MSB
- # of len_dw
- shl $1, len_dw
- jnc .Lless_than_1
- crc32b (bufptmp), crc_init_dw # CRC of 1 byte
-.Lless_than_1: # Length should be zero
-.Ldo_return:
+ test len, len
+ jz .Ldone
+ mov len_dw, %eax
+ shr $3, %eax
+ jz .Ldo_dword
+.Ldo_qwords:
+ crc32q (bufptmp), crc_init
+ add $8, bufptmp
+ dec %eax
+ jnz .Ldo_qwords
+.Ldo_dword:
+ test $4, len_dw
+ jz .Ldo_word
+ crc32l (bufptmp), crc_init_dw
+ add $4, bufptmp
+.Ldo_word:
+ test $2, len_dw
+ jz .Ldo_byte
+ crc32w (bufptmp), crc_init_dw
+ add $2, bufptmp
+.Ldo_byte:
+ test $1, len_dw
+ jz .Ldone
+ crc32b (bufptmp), crc_init_dw
+.Ldone:
movq crc_init, %rax
popq %rsi
popq %rdi