;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; Copyright(c) 2011-2016 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 "options.asm" %include "lz0a_const.asm" %include "data_struct2.asm" %include "bitbuf2.asm" %include "huffman.asm" %include "igzip_compare_types.asm" %include "reg_sizes.asm" %include "stdmac.asm" %ifdef DEBUG %macro MARK 1 global %1 %1: %endm %else %macro MARK 1 %endm %endif %define LARGE_MATCH_HASH_REP 1 ; Hash 4 * LARGE_MATCH_HASH_REP elements %define LARGE_MATCH_MIN 264 ; Minimum match size to enter large match emit loop %define MIN_INBUF_PADDING 16 %define MAX_EMIT_SIZE 258 * 16 %define SKIP_SIZE_BASE (2 << 10) ; No match length before starting skipping %define SKIP_BASE 32 ; Initial skip size %define SKIP_START 512 ; Start increasing skip size once level is beyond SKIP_START %define SKIP_RATE 2 ; Rate skip size increases after SKIP_START %define MAX_SKIP_SIZE 128 ; Maximum skip size %define MAX_SKIP_LEVEL (((MAX_SKIP_SIZE - SKIP_BASE) / SKIP_RATE) + SKIP_START) ; Maximum skip level ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; %define file_start rdi %define file_length r15 %define level_buf r14 %define f_i r10 %define m_out_buf r11 %define curr_data rax %define tmp2 rcx %define skip_count rcx %define dist rbx %define dist_code2 rbx %define lit_code2 rbx %define hmask2 rbx %define dist2 r12 %define dist_code r12 %define hmask3 r12 %define tmp1 rsi %define lit_code rsi %define curr_data2 r8 %define len2 r8 %define tmp4 r8 %define hmask1 r8 %define len_code2 r8 %define len rdx %define len_code rdx %define hash3 rdx %define stream r13 %define tmp3 r13 %define hash rbp %define hash2 r9 ;; GPR r8 & r15 can be used %define xtmp0 xmm0 ; tmp %define xtmp1 xmm1 ; tmp %define xlow_lit_shuf xmm2 %define xup_lit_shuf xmm3 %define xdata xmm4 %define xlit xmm5 %define ytmp0 ymm0 ; tmp %define ytmp1 ymm1 ; tmp %define hash_table level_buf + _hash8k_hash_table %define lit_len_hist level_buf + _hist_lit_len %define dist_hist level_buf + _hist_dist ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; m_out_end equ 0 ; local variable (8 bytes) m_out_start equ 8 dist_mask_offset equ 16 hash_mask_offset equ 24 f_end_i_mem_offset equ 32 stream_offset equ 40 inbuf_slop_offset equ 48 skip_match_offset equ 56 skip_level_offset equ 64 gpr_save_mem_offset equ 80 ; gpr save area (8*8 bytes) xmm_save_mem_offset equ gpr_save_mem_offset + 8*8 ; xmm save area (4*16 bytes) (16 byte aligned) stack_size equ 11*8 + 8*8 + 4*16 ;;; 8 because stack address is odd multiple of 8 after a function call and ;;; we want it aligned to 16 bytes ;; Defines to generate functions for different architecture %xdefine ARCH 01 %xdefine ARCH1 02 %xdefine ARCH2 04 %ifndef COMPARE_TYPE %xdefine COMPARE_TYPE_NOT_DEF %xdefine COMPARE_TYPE 1 %xdefine COMPARE_TYPE1 2 %xdefine COMPARE_TYPE2 3 %endif ;; Defines to generate functions for different levels %xdefine METHOD hash_hist %rep 3 %if ARCH == 04 %define USE_HSWNI %endif ; void isal_deflate_icf_body ( isal_zstream *stream ) ; we make 6 different versions of this function ; arg 1: rcx: addr of stream global isal_deflate_icf_body_ %+ METHOD %+ _ %+ ARCH isal_deflate_icf_body_ %+ METHOD %+ _ %+ ARCH %+ : %ifidn __OUTPUT_FORMAT__, elf64 mov rcx, rdi %endif ;; do nothing if (avail_in == 0) cmp dword [rcx + _avail_in], 0 jne .skip1 ;; Set stream's next state mov rdx, ZSTATE_CREATE_HDR mov eax, [rcx + _internal_state_state] cmp word [rcx + _end_of_stream], 0 cmovne rax, rdx cmp word [rcx + _flush], _NO_FLUSH cmovne rax, rdx mov dword [rcx + _internal_state_state], eax ret .skip1: %ifdef ALIGN_STACK push rbp mov rbp, rsp sub rsp, stack_size and rsp, ~15 %else sub rsp, stack_size %endif mov [rsp + gpr_save_mem_offset + 0*8], rbx mov [rsp + gpr_save_mem_offset + 1*8], rsi mov [rsp + gpr_save_mem_offset + 2*8], rdi mov [rsp + gpr_save_mem_offset + 3*8], rbp mov [rsp + gpr_save_mem_offset + 4*8], r12 mov [rsp + gpr_save_mem_offset + 5*8], r13 mov [rsp + gpr_save_mem_offset + 6*8], r14 mov [rsp + gpr_save_mem_offset + 7*8], r15 mov stream, rcx mov [rsp + stream_offset], stream mov byte [stream + _internal_state_has_eob], 0 mov tmp1 %+ d, dword[stream + _internal_state_dist_mask] mov [rsp + dist_mask_offset], tmp1 mov tmp1 %+ d, dword[stream + _internal_state_hash_mask] mov [rsp + hash_mask_offset], tmp1 ; state->bitbuf.set_buf(stream->next_out, stream->avail_out); mov level_buf, [stream + _level_buf] mov m_out_buf, [level_buf + _icf_buf_next] mov [rsp + m_out_start], m_out_buf mov tmp1, [level_buf + _icf_buf_avail_out] add tmp1, m_out_buf sub tmp1, SLOP mov [rsp + m_out_end], tmp1 mov file_start, [stream + _next_in] mov f_i %+ d, dword [stream + _total_in] sub file_start, f_i mov file_length %+ d, [stream + _avail_in] add file_length, f_i mov [rsp + skip_match_offset], f_i add qword [rsp + skip_match_offset], SKIP_SIZE_BASE mov qword [rsp + skip_level_offset], 0 PBROADCASTD xlit, dword [min_lit_dist_syms] MOVDQU xlow_lit_shuf, [low_lit_shuf] MOVDQU xup_lit_shuf, [up_lit_shuf] mov qword [rsp + inbuf_slop_offset], MIN_INBUF_PADDING cmp byte [stream + _end_of_stream], 0 jnz .default_inbuf_padding cmp byte [stream + _flush], 0 jnz .default_inbuf_padding mov qword [rsp + inbuf_slop_offset], LA .default_inbuf_padding: ; file_length -= INBUF_PADDING; sub file_length, [rsp + inbuf_slop_offset] ; if (file_length <= 0) continue; mov hmask1 %+ d, [rsp + hash_mask_offset] cmp file_length, f_i jle .input_end ; for (f_i = f_start_i; f_i < file_length; f_i++) { MOVDQU xdata, [file_start + f_i] mov curr_data, [file_start + f_i] mov tmp1, curr_data compute_hash hash, curr_data shr tmp1, 8 compute_hash hash2, tmp1 and hash, hmask1 and hash2, hmask1 cmp byte [stream + _internal_state_has_hist], IGZIP_NO_HIST je .write_first_byte jmp .loop2 align 16 .loop2: mov tmp3 %+ d, [rsp + dist_mask_offset] mov hmask1 %+ d, [rsp + hash_mask_offset] ; if (state->bitbuf.is_full()) { cmp m_out_buf, [rsp + m_out_end] ja .output_end xor dist, dist xor dist2, dist2 lea tmp1, [file_start + f_i] mov dist %+ w, f_i %+ w dec dist sub dist %+ w, word [hash_table + 2 * hash] mov [hash_table + 2 * hash], f_i %+ w inc f_i mov tmp2, curr_data shr curr_data, 16 compute_hash hash, curr_data and hash %+ d, hmask1 %+ d mov dist2 %+ w, f_i %+ w dec dist2 sub dist2 %+ w, word [hash_table + 2 * hash2] mov [hash_table + 2 * hash2], f_i %+ w ; if ((dist-1) < (D-1)) { and dist %+ d, tmp3 %+ d neg dist shr tmp2, 24 compute_hash hash2, tmp2 and hash2 %+ d, hmask1 %+ d and dist2 %+ d, tmp3 %+ d neg dist2 ;; Check for long len/dist match (>7) with first literal MOVQ len, xdata mov curr_data, len PSRLDQ xdata, 1 xor len, [tmp1 + dist - 1] jz .compare_loop ;; Check for len/dist match (>7) with second literal MOVQ len2, xdata xor len2, [tmp1 + dist2] jz .compare_loop2 movzx lit_code, curr_data %+ b shr curr_data, 8 ;; Check for len/dist match for first literal test len %+ d, 0xFFFFFFFF jz .len_dist_huffman_pre PSRLDQ xdata, 1 inc dword [lit_len_hist + HIST_ELEM_SIZE*lit_code] movzx lit_code2, curr_data %+ b ;; Check for len/dist match for second literal test len2 %+ d, 0xFFFFFFFF jnz .write_lit_bits .len_dist_lit_huffman_pre: bsf len2, len2 shr len2, 3 .len_dist_lit_huffman: or lit_code, LIT mov dword [m_out_buf], lit_code %+ d neg dist2 get_dist_icf_code dist2, dist_code2, tmp1 mov hmask3 %+ d, dword [rsp + hash_mask_offset] ;; Setup for updating hash lea tmp3, [f_i + 1] ; tmp3 <= k mov tmp2, f_i add file_start, f_i add f_i, len2 cmp f_i, file_length jg .len_dist_lit_huffman_finish lea tmp1, [f_i + SKIP_SIZE_BASE] mov qword [rsp + skip_match_offset], tmp1 sub qword [rsp + skip_level_offset], len2 MOVDQU xdata, [file_start + len2] mov tmp1, [file_start + len2] sub file_start, tmp2 shr curr_data, 24 compute_hash hash3, curr_data and hash3 %+ d, hmask3 %+ d mov curr_data, tmp1 shr tmp1, 8 mov [hash_table + 2 * hash], tmp3 %+ w compute_hash hash, curr_data add tmp3,1 mov [hash_table + 2 * hash2], tmp3 %+ w compute_hash hash2, tmp1 add tmp3, 1 mov [hash_table + 2 * hash3], tmp3 %+ w add dist_code2, 254 add dist_code2, len2 inc dword [lit_len_hist + HIST_ELEM_SIZE*(len2 + 254)] mov dword [m_out_buf + 4], dist_code2 %+ d add m_out_buf, 8 shr dist_code2, DIST_OFFSET and dist_code2, 0x1F inc dword [dist_hist + HIST_ELEM_SIZE*dist_code2] ; hash = compute_hash(state->file_start + f_i) & hash_mask; and hash %+ d, hmask3 %+ d and hash2 %+ d, hmask3 %+ d ; continue jmp .loop2 .len_dist_lit_huffman_finish: sub file_start, tmp2 mov [hash_table + 2 * hash], tmp3 %+ w add tmp3,1 mov [hash_table + 2 * hash2], tmp3 %+ w add dist_code2, 254 add dist_code2, len2 inc dword [lit_len_hist + HIST_ELEM_SIZE*(len2 + 254)] mov dword [m_out_buf + 4], dist_code2 %+ d add m_out_buf, 8 shr dist_code2, DIST_OFFSET and dist_code2, 0x1F inc dword [dist_hist + HIST_ELEM_SIZE*dist_code2] jmp .input_end .len_dist_huffman_pre: bsf len, len shr len, 3 .len_dist_huffman: dec f_i ;; Setup for updateing hash lea tmp3, [f_i + 2] ; tmp3 <= k neg dist ; get_dist_code(dist, &code2, &code_len2); get_dist_icf_code dist, dist_code, tmp1 .len_dist_huffman_skip: mov hmask2 %+ d, [rsp + hash_mask_offset] mov tmp1, f_i add file_start, f_i add f_i, len cmp f_i, file_length jg .len_dist_huffman_finish lea tmp2, [f_i + SKIP_SIZE_BASE] mov qword [rsp + skip_match_offset], tmp2 sub qword [rsp + skip_level_offset], len MOVDQU xdata, [file_start + len] mov curr_data2, [file_start + len] mov curr_data, curr_data2 sub file_start, tmp1 ; get_len_code(len, &code, &code_len); lea len_code, [len + 254] or dist_code, len_code mov [hash_table + 2 * hash], tmp3 %+ w add tmp3,1 mov [hash_table + 2 * hash2], tmp3 %+ w compute_hash hash, curr_data shr curr_data2, 8 compute_hash hash2, curr_data2 inc dword [lit_len_hist + HIST_ELEM_SIZE*len_code] mov dword [m_out_buf], dist_code %+ d add m_out_buf, 4 shr dist_code, DIST_OFFSET and dist_code, 0x1F inc dword [dist_hist + HIST_ELEM_SIZE*dist_code] ; hash = compute_hash(state->file_start + f_i) & hash_mask; and hash %+ d, hmask2 %+ d and hash2 %+ d, hmask2 %+ d ; continue jmp .loop2 .len_dist_huffman_finish: sub file_start, tmp1 ; get_len_code(len, &code, &code_len); lea len_code, [len + 254] or dist_code, len_code mov [hash_table + 2 * hash], tmp3 %+ w add tmp3,1 mov [hash_table + 2 * hash2], tmp3 %+ w inc dword [lit_len_hist + HIST_ELEM_SIZE*len_code] mov dword [m_out_buf], dist_code %+ d add m_out_buf, 4 shr dist_code, DIST_OFFSET and dist_code, 0x1F inc dword [dist_hist + HIST_ELEM_SIZE*dist_code] jmp .input_end .write_lit_bits: MOVQ curr_data, xdata add f_i, 1 cmp f_i, file_length jg .write_lit_bits_finish MOVDQU xdata, [file_start + f_i] inc dword [lit_len_hist + HIST_ELEM_SIZE*lit_code2] shl lit_code2, DIST_OFFSET lea lit_code, [lit_code + lit_code2 + (31 << DIST_OFFSET)] mov dword [m_out_buf], lit_code %+ d add m_out_buf, 4 cmp f_i, [rsp + skip_match_offset] jle .loop2 xor tmp3, tmp3 mov rcx, [rsp + skip_level_offset] add rcx, 1 cmovl rcx, tmp3 mov tmp1, MAX_SKIP_LEVEL cmp rcx, MAX_SKIP_LEVEL cmovg rcx, tmp1 mov tmp1, SKIP_SIZE_BASE shr tmp1, cl %if MAX_SKIP_LEVEL > 63 cmp rcx, 63 cmovg tmp1, tmp3 %endif mov [rsp + skip_match_offset], tmp1 mov [rsp + skip_level_offset], rcx sub rcx, SKIP_START cmovl rcx, tmp3 lea skip_count, [SKIP_RATE * rcx + SKIP_BASE] and skip_count, -SKIP_BASE mov tmp1, [rsp + m_out_end] lea tmp1, [tmp1 + 4] sub tmp1, m_out_buf shr tmp1, 1 cmp tmp1, skip_count jl .skip_forward_short mov tmp1, [rsp + inbuf_slop_offset] add tmp1, file_length sub tmp1, f_i cmp tmp1, skip_count jl .skip_forward_short .skip_forward_long: MOVQ xdata, [file_start + f_i] movzx lit_code, byte [file_start + f_i] movzx lit_code2, byte [file_start + f_i + 1] add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code], 1 add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code2], 1 movzx lit_code, byte [file_start + f_i + 2] movzx lit_code2, byte [file_start + f_i + 3] add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code], 1 add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code2], 1 movzx lit_code, byte [file_start + f_i + 4] movzx lit_code2, byte [file_start + f_i + 5] add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code], 1 add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code2], 1 movzx lit_code, byte [file_start + f_i + 6] movzx lit_code2, byte [file_start + f_i + 7] add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code], 1 add dword [lit_len_hist + HIST_ELEM_SIZE*lit_code2], 1 PSHUFB xtmp0, xdata, xlow_lit_shuf PSHUFB xtmp1, xdata, xup_lit_shuf PSLLD xtmp1, xtmp1, DIST_OFFSET POR xtmp0, xtmp0, xtmp1 PADDD xtmp0, xtmp0, xlit MOVDQU [m_out_buf], xtmp0 add m_out_buf, 16 add f_i, 8 sub skip_count, 8 jg .skip_forward_long cmp file_length, f_i jle .input_end mov curr_data, [file_start + f_i] MOVDQU xdata, [file_start + f_i] add [rsp + skip_match_offset], f_i jmp .loop2 .skip_forward_short: movzx lit_code, byte [file_start + f_i] movzx lit_code2, byte [file_start + f_i + 1] inc dword [lit_len_hist + HIST_ELEM_SIZE*lit_code] inc dword [lit_len_hist + HIST_ELEM_SIZE*lit_code2] shl lit_code2, DIST_OFFSET lea lit_code, [lit_code + lit_code2 + (31 << DIST_OFFSET)] mov dword [m_out_buf], lit_code %+ d add m_out_buf, 4 add f_i, 2 cmp m_out_buf, [rsp + m_out_end] ja .output_end cmp file_length, f_i jle .input_end jmp .skip_forward_short .write_lit_bits_finish: inc dword [lit_len_hist + HIST_ELEM_SIZE*lit_code2] shl lit_code2, DIST_OFFSET lea lit_code, [lit_code + lit_code2 + (31 << DIST_OFFSET)] mov dword [m_out_buf], lit_code %+ d add m_out_buf, 4 .input_end: mov stream, [rsp + stream_offset] mov tmp1, ZSTATE_FLUSH_READ_BUFFER mov tmp2, ZSTATE_BODY cmp word [stream + _end_of_stream], 0 cmovne tmp2, tmp1 cmp word [stream + _flush], _NO_FLUSH cmovne tmp2, tmp1 mov dword [stream + _internal_state_state], tmp2 %+ d jmp .end .output_end: mov stream, [rsp + stream_offset] mov dword [stream + _internal_state_state], ZSTATE_CREATE_HDR .end: ;; update input buffer add file_length, [rsp + inbuf_slop_offset] mov [stream + _total_in], f_i %+ d mov [stream + _internal_state_block_end], f_i %+ d add file_start, f_i mov [stream + _next_in], file_start sub file_length, f_i mov [stream + _avail_in], file_length %+ d ;; update output buffer mov [level_buf + _icf_buf_next], m_out_buf sub m_out_buf, [rsp + m_out_start] sub [level_buf + _icf_buf_avail_out], m_out_buf %+ d mov rbx, [rsp + gpr_save_mem_offset + 0*8] mov rsi, [rsp + gpr_save_mem_offset + 1*8] mov rdi, [rsp + gpr_save_mem_offset + 2*8] mov rbp, [rsp + gpr_save_mem_offset + 3*8] mov r12, [rsp + gpr_save_mem_offset + 4*8] mov r13, [rsp + gpr_save_mem_offset + 5*8] mov r14, [rsp + gpr_save_mem_offset + 6*8] mov r15, [rsp + gpr_save_mem_offset + 7*8] %ifndef ALIGN_STACK add rsp, stack_size %else mov rsp, rbp pop rbp %endif ret align 16 .compare_loop: lea tmp2, [tmp1 + dist - 1] mov len2, file_length sub len2, f_i add len2, [rsp + inbuf_slop_offset] add len2, 1 mov tmp3, MAX_EMIT_SIZE cmp len2, tmp3 cmovg len2, tmp3 mov len, 8 compare_large tmp1, tmp2, len, len2, tmp3, ytmp0, ytmp1 cmp len, 258 jle .len_dist_huffman cmp len, LARGE_MATCH_MIN jge .do_emit mov len, 258 jmp .len_dist_huffman align 16 .compare_loop2: lea tmp2, [tmp1 + dist2] add tmp1, 1 mov len, file_length sub len, f_i add len, [rsp + inbuf_slop_offset] mov tmp3, MAX_EMIT_SIZE cmp len, tmp3 cmovg len, tmp3 mov len2, 8 compare_large tmp1, tmp2, len2, len, tmp3, ytmp0, ytmp1 movzx lit_code, curr_data %+ b shr curr_data, 8 inc dword [lit_len_hist + HIST_ELEM_SIZE*lit_code] cmp len2, 258 jle .len_dist_lit_huffman cmp len2, LARGE_MATCH_MIN jge .do_emit2 mov len2, 258 jmp .len_dist_lit_huffman .do_emit2: or lit_code, LIT mov dword [m_out_buf], lit_code %+ d add m_out_buf, 4 inc f_i mov dist, dist2 mov len, len2 .do_emit: neg dist get_dist_icf_code dist, dist_code, tmp1 mov len_code2, 258 + 254 or len_code2, dist_code mov tmp1, dist_code shr tmp1, DIST_OFFSET and tmp1, 0x1F lea tmp3, [f_i + 1] dec f_i mov [hash_table + 2 * hash], tmp3 %+ w add tmp3,1 mov [hash_table + 2 * hash2], tmp3 %+ w .emit: sub len, 258 add f_i, 258 inc dword [lit_len_hist + HIST_ELEM_SIZE*(258 + 254)] inc dword [dist_hist + HIST_ELEM_SIZE*tmp1] mov dword [m_out_buf], len_code2 %+ d add m_out_buf, 4 cmp m_out_buf, [rsp + m_out_end] ja .output_end cmp len, LARGE_MATCH_MIN jge .emit mov len2, 258 cmp len, len2 cmovg len, len2 ; get_len_code(len, &code, &code_len); add f_i, len lea len_code, [len + 254] or dist_code, len_code inc dword [lit_len_hist + HIST_ELEM_SIZE*len_code] inc dword [dist_hist + HIST_ELEM_SIZE*tmp1] mov dword [m_out_buf], dist_code %+ d add m_out_buf, 4 cmp file_length, f_i jle .input_end lea tmp2, [f_i - 4 * LARGE_MATCH_HASH_REP] mov hmask2 %+ d, [rsp + hash_mask_offset] %rep LARGE_MATCH_HASH_REP mov curr_data %+ d, dword [file_start + tmp2] mov curr_data2 %+ d, dword [file_start + tmp2 + 1] mov tmp3 %+ d, dword [file_start + tmp2 + 2] mov tmp1 %+ d, dword [file_start + tmp2 + 3] compute_hash hash, curr_data compute_hash hash2, curr_data2 compute_hash hash3, tmp3 compute_hash hmask3, tmp1 and hash %+ d, hmask2 %+ d and hash2 %+ d, hmask2 %+ d and hash3 %+ d, hmask2 %+ d and hmask3 %+ d, hmask2 %+ d mov [hash_table + 2 * hash], tmp2 %+ w add tmp2, 1 mov [hash_table + 2 * hash2], tmp2 %+ w add tmp2, 1 mov [hash_table + 2 * hash3], tmp2 %+ w add tmp2, 1 mov [hash_table + 2 * hmask3], tmp2 %+ w %if (LARGE_MATCH_HASH_REP > 1) add tmp2, 1 %endif %endrep ; for (f_i = f_start_i; f_i < file_length; f_i++) { MOVDQU xdata, [file_start + f_i] mov curr_data, [file_start + f_i] mov tmp1, curr_data compute_hash hash, curr_data shr tmp1, 8 compute_hash hash2, tmp1 and hash, hmask2 and hash2, hmask2 jmp .loop2 .write_first_byte: mov hmask1 %+ d, [rsp + hash_mask_offset] cmp m_out_buf, [rsp + m_out_end] ja .output_end mov byte [stream + _internal_state_has_hist], IGZIP_HIST mov [hash_table + 2 * hash], f_i %+ w mov hash, hash2 shr tmp2, 16 compute_hash hash2, tmp2 and curr_data, 0xff inc dword [lit_len_hist + HIST_ELEM_SIZE*curr_data] or curr_data, LIT mov dword [m_out_buf], curr_data %+ d add m_out_buf, 4 MOVDQU xdata, [file_start + f_i + 1] add f_i, 1 mov curr_data, [file_start + f_i] and hash %+ d, hmask1 %+ d and hash2 %+ d, hmask1 %+ d cmp f_i, file_length jl .loop2 jmp .input_end %ifdef USE_HSWNI %undef USE_HSWNI %endif ;; Shift defines over in order to iterate over all versions %undef ARCH %xdefine ARCH ARCH1 %undef ARCH1 %xdefine ARCH1 ARCH2 %ifdef COMPARE_TYPE_NOT_DEF %undef COMPARE_TYPE %xdefine COMPARE_TYPE COMPARE_TYPE1 %undef COMPARE_TYPE1 %xdefine COMPARE_TYPE1 COMPARE_TYPE2 %endif %endrep min_lit_dist_syms: dd LIT + (1 << DIST_OFFSET) low_lit_shuf: db 0x00, 0xff, 0xff, 0xff, 0x02, 0xff, 0xff, 0xff db 0x04, 0xff, 0xff, 0xff, 0x06, 0xff, 0xff, 0xff up_lit_shuf: db 0x01, 0xff, 0xff, 0xff, 0x03, 0xff, 0xff, 0xff db 0x05, 0xff, 0xff, 0xff, 0x07, 0xff, 0xff, 0xff