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|
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Copyright(c) 2011-2018 Intel Corporation All rights reserved.
;
; Redistribution and use in source and binary forms, with or without
; modification, are permitted provided that the following conditions
; are met:
; * Redistributions of source code must retain the above copyright
; notice, this list of conditions and the following disclaimer.
; * Redistributions in binary form must reproduce the above copyright
; notice, this list of conditions and the following disclaimer in
; the documentation and/or other materials provided with the
; distribution.
; * Neither the name of Intel Corporation nor the names of its
; contributors may be used to endorse or promote products derived
; from this software without specific prior written permission.
;
; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
; "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
; LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
; A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
; OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
; SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
; LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
; DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
; THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
; OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
%include "reg_sizes.asm"
%include "lz0a_const.asm"
%include "data_struct2.asm"
%include "stdmac.asm"
%define ARCH 04
%define USE_HSWNI
; tree entry is 4 bytes:
; lit/len tree (513 entries)
; | 3 | 2 | 1 | 0 |
; | len | code |
;
; dist tree
; | 3 | 2 | 1 | 0 |
; |eblen:codlen| code |
; token format:
; DIST_OFFSET:0 : lit/len
; 31:(DIST_OFFSET + 5) : dist Extra Bits
; (DIST_OFFSET + 5):DIST_OFFSET : dist code
; lit/len: 0-256 (literal)
; 257-512 (dist + 254)
; returns final token pointer
; equal to token_end if successful
; uint32_t* encode_df(uint32_t *token_start, uint32_t *token_end,
; BitBuf *out_buf, uint32_t *trees);
%ifidn __OUTPUT_FORMAT__, win64
%define arg1 rcx
%define arg2 rdx
%define arg3 r8
%define arg4 r9
%define sym rsi
%define dsym rdi
%define hufftables r9
%define ptr r11
%else
; Linux
%define arg1 rdi
%define arg2 rsi
%define arg3 rdx
%define arg4 rcx
%define sym r9
%define dsym r8
%define hufftables r11
%define ptr rdi
%endif
%define in_buf_end arg2
%define bitbuf arg3
%define out_buf bitbuf
; bit_count is rcx
%define bits rax
%define data r12
%define tmp rbx
%define len dsym
%define tmp2 r10
%define end_ptr rbp
%define LIT_MASK ((0x1 << LIT_LEN_BIT_COUNT) - 1)
%define DIST_MASK ((0x1 << DIST_LIT_BIT_COUNT) - 1)
%define codes1 ymm1
%define code_lens1 ymm2
%define codes2 ymm3
%define code_lens2 ymm4
%define codes3 ymm5
%define code_lens3 ymm6
%define codes4 ymm7
%define syms ymm7
%define code_lens4 ymm8
%define dsyms ymm8
%define ytmp ymm9
%define codes_lookup1 ymm10
%define codes_lookup2 ymm11
%define datas ymm12
%define ybits ymm13
%define ybits_count ymm14
%define yoffset_mask ymm15
%define VECTOR_SIZE 0x20
%define VECTOR_LOOP_PROCESSED (2 * VECTOR_SIZE)
%define VECTOR_SLOP 0x20 - 8
gpr_save_mem_offset equ 0
gpr_save_mem_size equ 8 * 6
xmm_save_mem_offset equ gpr_save_mem_offset + gpr_save_mem_size
xmm_save_mem_size equ 10 * 16
bitbuf_mem_offset equ xmm_save_mem_offset + xmm_save_mem_size
bitbuf_mem_size equ 8
stack_size equ gpr_save_mem_size + xmm_save_mem_size + bitbuf_mem_size
%macro FUNC_SAVE 0
sub rsp, stack_size
mov [rsp + gpr_save_mem_offset + 0*8], rbx
mov [rsp + gpr_save_mem_offset + 1*8], rbp
mov [rsp + gpr_save_mem_offset + 2*8], r12
%ifidn __OUTPUT_FORMAT__, win64
mov [rsp + gpr_save_mem_offset + 3*8], rsi
mov [rsp + gpr_save_mem_offset + 4*8], rdi
MOVDQU [rsp + xmm_save_mem_offset + 0*8], xmm6
MOVDQU [rsp + xmm_save_mem_offset + 1*8], xmm7
MOVDQU [rsp + xmm_save_mem_offset + 2*8], xmm8
MOVDQU [rsp + xmm_save_mem_offset + 3*8], xmm9
MOVDQU [rsp + xmm_save_mem_offset + 4*8], xmm10
MOVDQU [rsp + xmm_save_mem_offset + 5*8], xmm11
MOVDQU [rsp + xmm_save_mem_offset + 6*8], xmm12
MOVDQU [rsp + xmm_save_mem_offset + 7*8], xmm13
MOVDQU [rsp + xmm_save_mem_offset + 8*8], xmm14
MOVDQU [rsp + xmm_save_mem_offset + 9*8], xmm15
%endif
%endm
%macro FUNC_RESTORE 0
mov rbx, [rsp + gpr_save_mem_offset + 0*8]
mov rbp, [rsp + gpr_save_mem_offset + 1*8]
mov r12, [rsp + gpr_save_mem_offset + 2*8]
%ifidn __OUTPUT_FORMAT__, win64
mov rsi, [rsp + gpr_save_mem_offset + 3*8]
mov rdi, [rsp + gpr_save_mem_offset + 4*8]
MOVDQU xmm6, [rsp + xmm_save_mem_offset + 0*8]
MOVDQU xmm7, [rsp + xmm_save_mem_offset + 1*8]
MOVDQU xmm8, [rsp + xmm_save_mem_offset + 2*8]
MOVDQU xmm9, [rsp + xmm_save_mem_offset + 3*8]
MOVDQU xmm10, [rsp + xmm_save_mem_offset + 4*8]
MOVDQU xmm11, [rsp + xmm_save_mem_offset + 5*8]
MOVDQU xmm12, [rsp + xmm_save_mem_offset + 6*8]
MOVDQU xmm13, [rsp + xmm_save_mem_offset + 7*8]
MOVDQU xmm14, [rsp + xmm_save_mem_offset + 8*8]
MOVDQU xmm15, [rsp + xmm_save_mem_offset + 9*8]
%endif
add rsp, stack_size
%endmacro
default rel
section .text
global encode_deflate_icf_ %+ ARCH
encode_deflate_icf_ %+ ARCH:
endbranch
FUNC_SAVE
%ifnidn ptr, arg1
mov ptr, arg1
%endif
%ifnidn hufftables, arg4
mov hufftables, arg4
%endif
mov [rsp + bitbuf_mem_offset], bitbuf
mov bits, [bitbuf + _m_bits]
mov ecx, [bitbuf + _m_bit_count]
mov end_ptr, [bitbuf + _m_out_end]
mov out_buf, [bitbuf + _m_out_buf] ; clobbers bitbuf
sub end_ptr, VECTOR_SLOP
sub in_buf_end, VECTOR_LOOP_PROCESSED
cmp ptr, in_buf_end
jge .finish
vpcmpeqq ytmp, ytmp, ytmp
vmovdqu datas, [ptr]
vpand syms, datas, [lit_mask]
vpgatherdd codes_lookup1, [hufftables + _lit_len_table + 4 * syms], ytmp
vpcmpeqq ytmp, ytmp, ytmp
vpsrld dsyms, datas, DIST_OFFSET
vpand dsyms, dsyms, [dist_mask]
vpgatherdd codes_lookup2, [hufftables + _dist_table + 4 * dsyms], ytmp
vmovq ybits %+ x, bits
vmovq ybits_count %+ x, rcx
vmovdqa yoffset_mask, [offset_mask]
.main_loop:
;; Sets codes1 to contain lit/len codes andcode_lens1 the corresponding lengths
vpsrld code_lens1, codes_lookup1, 24
vpand codes1, codes_lookup1, [lit_icr_mask]
;; Sets codes2 to contain dist codes, code_lens2 the corresponding lengths,
;; and code_lens3 the extra bit counts
vpblendw codes2, ybits, codes_lookup2, 0x55 ;Bits 8 and above of ybits are 0
vpsrld code_lens2, codes_lookup2, 24
vpsrld code_lens3, codes_lookup2, 16
vpand code_lens3, [eb_icr_mask]
;; Set codes3 to contain the extra bits
vpsrld codes3, datas, EXTRA_BITS_OFFSET
cmp out_buf, end_ptr
ja .main_loop_exit
;; Start code lookups for next iteration
add ptr, VECTOR_SIZE
vpcmpeqq ytmp, ytmp, ytmp
vmovdqu datas, [ptr]
vpand syms, datas, [lit_mask]
vpgatherdd codes_lookup1, [hufftables + _lit_len_table + 4 * syms], ytmp
vpcmpeqq ytmp, ytmp, ytmp
vpsrld dsyms, datas, DIST_OFFSET
vpand dsyms, dsyms, [dist_mask]
vpgatherdd codes_lookup2, [hufftables + _dist_table + 4 * dsyms], ytmp
;; Merge dist code with extra bits
vpsllvd codes3, codes3, code_lens2
vpxor codes2, codes2, codes3
vpaddd code_lens2, code_lens2, code_lens3
;; Check for long codes
vpaddd code_lens3, code_lens1, code_lens2
vpcmpgtd ytmp, code_lens3, [max_write_d]
vptest ytmp, ytmp
jnz .long_codes
;; Merge dist and len codes
vpsllvd codes2, codes2, code_lens1
vpxor codes1, codes1, codes2
;; Split buffer data into qwords, ytmp is 0 after last branch
vpblendd codes3, ytmp, codes1, 0x55
vpsrlq codes1, codes1, 32
vpsrlq code_lens1, code_lens3, 32
vpblendd code_lens3, ytmp, code_lens3, 0x55
;; Merge bitbuf bits
vpsllvq codes3, codes3, ybits_count
vpxor codes3, codes3, ybits
vpaddq code_lens3, code_lens3, ybits_count
;; Merge two symbols into qwords
vpsllvq codes1, codes1, code_lens3
vpxor codes1, codes1, codes3
vpaddq code_lens1, code_lens1, code_lens3
;; Split buffer data into dqwords, ytmp is 0 after last branch
vpblendd codes2, ytmp, codes1, 0x33
vpblendd code_lens2, ytmp, code_lens1, 0x33
vpsrldq codes1, 8
vpsrldq code_lens1, 8
;; Bit align dqwords
vpaddq code_lens1, code_lens1, code_lens2
vpand ybits_count, code_lens1, yoffset_mask ;Extra bits
vpermq ybits_count, ybits_count, 0xcf
vpaddq code_lens2, ybits_count
vpsllvq codes2, codes2, ybits_count
;; Merge two qwords into dqwords
vmovdqa ytmp, [q_64]
vpsubq code_lens3, ytmp, code_lens2
vpsrlvq codes3, codes1, code_lens3
vpslldq codes3, codes3, 8
vpsllvq codes1, codes1, code_lens2
vpxor codes1, codes1, codes3
vpxor codes1, codes1, codes2
vmovq tmp, code_lens1 %+ x ;Number of bytes
shr tmp, 3
;; Extract last bytes
vpaddq code_lens2, code_lens1, ybits_count
vpsrlq code_lens2, code_lens2, 3
vpshufb codes2, codes1, code_lens2
vpand codes2, codes2, [bytes_mask]
vextracti128 ybits %+ x, codes2, 1
;; Check for short codes
vptest code_lens2, [min_write_mask]
jz .short_codes
.short_codes_next:
vpermq codes2, codes2, 0x45
vpor codes1, codes1, codes2
;; bit shift upper dqword combined bits to line up with lower dqword
vextracti128 code_lens2 %+ x, code_lens1, 1
; Write out lower dqword of combined bits
vmovdqu [out_buf], codes1
vpaddq code_lens1, code_lens1, code_lens2
vmovq tmp2, code_lens1 %+ x ;Number of bytes
shr tmp2, 3
vpand ybits_count, code_lens1, yoffset_mask ;Extra bits
; Write out upper dqword of combined bits
vextracti128 [out_buf + tmp], codes1, 1
add out_buf, tmp2
cmp ptr, in_buf_end
jbe .main_loop
.main_loop_exit:
vmovq rcx, ybits_count %+ x
vmovq bits, ybits %+ x
jmp .finish
.short_codes:
;; Merge last bytes when the second dqword contains less than a byte
vpor ybits %+ x, codes2 %+ x
jmp .short_codes_next
.long_codes:
add end_ptr, VECTOR_SLOP
sub ptr, VECTOR_SIZE
vpxor ytmp, ytmp, ytmp
vpblendd codes3, ytmp, codes1, 0x55
vpblendd code_lens3, ytmp, code_lens1, 0x55
vpblendd codes4, ytmp, codes2, 0x55
vpsllvq codes4, codes4, code_lens3
vpxor codes3, codes3, codes4
vpaddd code_lens3, code_lens1, code_lens2
vpsrlq codes1, codes1, 32
vpsrlq code_lens1, code_lens1, 32
vpsrlq codes2, codes2, 32
vpsllvq codes2, codes2, code_lens1
vpxor codes1, codes1, codes2
vpsrlq code_lens1, code_lens3, 32
vpblendd code_lens3, ytmp, code_lens3, 0x55
;; Merge bitbuf bits
vpsllvq codes3, codes3, ybits_count
vpxor codes3, codes3, ybits
vpaddq code_lens3, code_lens3, ybits_count
vpaddq code_lens1, code_lens1, code_lens3
xor bits, bits
xor rcx, rcx
vpsubq code_lens1, code_lens1, code_lens3
%rep 2
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
cmp out_buf, end_ptr
ja .overflow
;; insert LL code
vmovq sym, codes3 %+ x
vmovq tmp2, code_lens3 %+ x
SHLX sym, sym, rcx
or bits, sym
add rcx, tmp2
; empty bits
mov [out_buf], bits
mov tmp, rcx
shr tmp, 3 ; byte count
add out_buf, tmp
mov tmp, rcx
and rcx, ~7
SHRX bits, bits, rcx
mov rcx, tmp
and rcx, 7
add ptr, 4
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
cmp out_buf, end_ptr
ja .overflow
;; insert LL code
vmovq sym, codes1 %+ x
vmovq tmp2, code_lens1 %+ x
SHLX sym, sym, rcx
or bits, sym
add rcx, tmp2
; empty bits
mov [out_buf], bits
mov tmp, rcx
shr tmp, 3 ; byte count
add out_buf, tmp
mov tmp, rcx
and rcx, ~7
SHRX bits, bits, rcx
mov rcx, tmp
and rcx, 7
add ptr, 4
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
cmp out_buf, end_ptr
ja .overflow
;; insert LL code
vpextrq sym, codes3 %+ x, 1
vpextrq tmp2, code_lens3 %+ x, 1
SHLX sym, sym, rcx
or bits, sym
add rcx, tmp2
; empty bits
mov [out_buf], bits
mov tmp, rcx
shr tmp, 3 ; byte count
add out_buf, tmp
mov tmp, rcx
and rcx, ~7
SHRX bits, bits, rcx
mov rcx, tmp
and rcx, 7
add ptr, 4
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
cmp out_buf, end_ptr
ja .overflow
;; insert LL code
vpextrq sym, codes1 %+ x, 1
vpextrq tmp2, code_lens1 %+ x, 1
SHLX sym, sym, rcx
or bits, sym
add rcx, tmp2
; empty bits
mov [out_buf], bits
mov tmp, rcx
shr tmp, 3 ; byte count
add out_buf, tmp
mov tmp, rcx
and rcx, ~7
SHRX bits, bits, rcx
mov rcx, tmp
and rcx, 7
add ptr, 4
vextracti128 codes3 %+ x, codes3, 1
vextracti128 code_lens3 %+ x, code_lens3, 1
vextracti128 codes1 %+ x, codes1, 1
vextracti128 code_lens1 %+ x, code_lens1, 1
%endrep
sub end_ptr, VECTOR_SLOP
vmovq ybits %+ x, bits
vmovq ybits_count %+ x, rcx
cmp ptr, in_buf_end
jbe .main_loop
.finish:
add in_buf_end, VECTOR_LOOP_PROCESSED
add end_ptr, VECTOR_SLOP
cmp ptr, in_buf_end
jge .overflow
.finish_loop:
mov DWORD(data), [ptr]
cmp out_buf, end_ptr
ja .overflow
mov sym, data
and sym, LIT_MASK ; sym has ll_code
mov DWORD(sym), [hufftables + _lit_len_table + sym * 4]
; look up dist sym
mov dsym, data
shr dsym, DIST_OFFSET
and dsym, DIST_MASK
mov DWORD(dsym), [hufftables + _dist_table + dsym * 4]
; insert LL code
; sym: 31:24 length; 23:0 code
mov tmp2, sym
and sym, 0xFFFFFF
SHLX sym, sym, rcx
shr tmp2, 24
or bits, sym
add rcx, tmp2
; insert dist code
movzx tmp, WORD(dsym)
SHLX tmp, tmp, rcx
or bits, tmp
mov tmp, dsym
shr tmp, 24
add rcx, tmp
; insert dist extra bits
shr data, EXTRA_BITS_OFFSET
add ptr, 4
SHLX data, data, rcx
or bits, data
shr dsym, 16
and dsym, 0xFF
add rcx, dsym
; empty bits
mov [out_buf], bits
mov tmp, rcx
shr tmp, 3 ; byte count
add out_buf, tmp
mov tmp, rcx
and rcx, ~7
SHRX bits, bits, rcx
mov rcx, tmp
and rcx, 7
cmp ptr, in_buf_end
jb .finish_loop
.overflow:
mov tmp, [rsp + bitbuf_mem_offset]
mov [tmp + _m_bits], bits
mov [tmp + _m_bit_count], ecx
mov [tmp + _m_out_buf], out_buf
mov rax, ptr
FUNC_RESTORE
ret
section .data
align 32
max_write_d:
dd 0x1c, 0x1d, 0x1f, 0x20, 0x1c, 0x1d, 0x1f, 0x20
min_write_mask:
dq 0x00, 0x00, 0xff, 0x00
offset_mask:
dq 0x0000000000000007, 0x0000000000000000
dq 0x0000000000000000, 0x0000000000000000
q_64:
dq 0x0000000000000040, 0x0000000000000000
dq 0x0000000000000040, 0x0000000000000000
lit_mask:
dd LIT_MASK, LIT_MASK, LIT_MASK, LIT_MASK
dd LIT_MASK, LIT_MASK, LIT_MASK, LIT_MASK
dist_mask:
dd DIST_MASK, DIST_MASK, DIST_MASK, DIST_MASK
dd DIST_MASK, DIST_MASK, DIST_MASK, DIST_MASK
lit_icr_mask:
dd 0x00FFFFFF, 0x00FFFFFF, 0x00FFFFFF, 0x00FFFFFF
dd 0x00FFFFFF, 0x00FFFFFF, 0x00FFFFFF, 0x00FFFFFF
eb_icr_mask:
dd 0x000000FF, 0x000000FF, 0x000000FF, 0x000000FF
dd 0x000000FF, 0x000000FF, 0x000000FF, 0x000000FF
bytes_mask:
dq 0x00000000000000ff, 0x0000000000000000
dq 0x00000000000000ff, 0x0000000000000000
|
