;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; 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 "stdmac.asm" %include "reg_sizes.asm" ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; %define curr_data rax %define tmp1 rax %define f_index rbx %define code rbx %define tmp4 rbx %define tmp5 rbx %define tmp6 rbx %define tmp2 rcx %define hash rcx %define tmp3 rdx %define stream rsi %define f_i rdi %define code_len2 rbp %define m_out_buf r8 %define dist r10 %define code2 r12 %define f_end_i r12 %define file_start r13 %define len r14 %define hufftables r15 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; f_end_i_mem_offset equ 0 ; local variable (8 bytes) m_out_end equ 8 m_out_start equ 16 stack_size equ 32 ; void isal_deflate_icf_finish ( isal_zstream *stream ) ; arg 1: rcx: addr of stream global isal_deflate_icf_finish_01 isal_deflate_icf_finish_01: PUSH_ALL rbx, rsi, rdi, rbp, r12, r13, r14, r15 sub rsp, stack_size %ifidn __OUTPUT_FORMAT__, win64 mov stream, rcx %else mov stream, rdi %endif ; state->bitbuf.set_buf(stream->next_out, stream->avail_out); mov tmp1, [stream + _level_buf] mov m_out_buf, [tmp1 + _icf_buf_next] mov [rsp + m_out_start], m_out_buf mov tmp1, [tmp1 + _icf_buf_avail_out] add tmp1, m_out_buf sub tmp1, 4 mov [rsp + m_out_end], tmp1 mov hufftables, [stream + _hufftables] mov file_start, [stream + _next_in] mov f_i %+ d, dword [stream + _total_in] sub file_start, f_i mov f_end_i %+ d, dword [stream + _avail_in] add f_end_i, f_i sub f_end_i, LAST_BYTES_COUNT mov [rsp + f_end_i_mem_offset], f_end_i ; for (f_i = f_start_i; f_i < f_end_i; f_i++) { cmp f_i, f_end_i jge end_loop_2 mov curr_data %+ d, [file_start + f_i] cmp dword [stream + _internal_state_has_hist], IGZIP_NO_HIST jne skip_write_first_byte cmp m_out_buf, [rsp + m_out_end] ja end_loop_2 compute_hash hash, curr_data and hash %+ d, HASH_MASK mov [stream + _internal_state_head + 2 * hash], f_i %+ w mov dword [stream + _internal_state_has_hist], IGZIP_HIST jmp encode_literal skip_write_first_byte: loop2: ; if (state->bitbuf.is_full()) { cmp m_out_buf, [rsp + m_out_end] ja end_loop_2 ; hash = compute_hash(state->file_start + f_i) & HASH_MASK; mov curr_data %+ d, [file_start + f_i] compute_hash hash, curr_data and hash %+ d, HASH_MASK ; f_index = state->head[hash]; movzx f_index %+ d, word [stream + _internal_state_head + 2 * hash] ; state->head[hash] = (uint16_t) f_i; mov [stream + _internal_state_head + 2 * hash], f_i %+ w ; dist = f_i - f_index; // mod 64k mov dist %+ d, f_i %+ d sub dist %+ d, f_index %+ d and dist %+ d, 0xFFFF ; if ((dist-1) <= (D-1)) { mov tmp1 %+ d, dist %+ d sub tmp1 %+ d, 1 cmp tmp1 %+ d, (D-1) jae encode_literal ; len = f_end_i - f_i; mov tmp4, [rsp + f_end_i_mem_offset] sub tmp4, f_i add tmp4, LAST_BYTES_COUNT ; if (len > 258) len = 258; cmp tmp4, 258 cmovg tmp4, [c258] ; len = compare(state->file_start + f_i, ; state->file_start + f_i - dist, len); lea tmp1, [file_start + f_i] mov tmp2, tmp1 sub tmp2, dist compare tmp4, tmp1, tmp2, len, tmp3 ; if (len >= SHORTEST_MATCH) { cmp len, SHORTEST_MATCH jb encode_literal ;; encode as dist/len ; get_dist_code(dist, &code2, &code_len2); dec dist get_dist_icf_code dist, code2, tmp3 ;; clobbers dist, rcx ;; get_len_code lea code, [len + 254] or code2, code inc word [stream + _internal_state_hist_lit_len + HIST_ELEM_SIZE*code] ; for (k = f_i+1, f_i += len-1; k <= f_i; k++) { lea tmp3, [f_i + 1] ; tmp3 <= k add f_i, len cmp f_i, [rsp + f_end_i_mem_offset] jae skip_hash_update ; only update hash twice ; hash = compute_hash(state->file_start + k) & HASH_MASK; mov tmp6 %+ d, dword [file_start + tmp3] compute_hash hash, tmp6 and hash %+ d, HASH_MASK ; state->head[hash] = k; mov [stream + _internal_state_head + 2 * hash], tmp3 %+ w add tmp3, 1 ; hash = compute_hash(state->file_start + k) & HASH_MASK; mov tmp6 %+ d, dword [file_start + tmp3] compute_hash hash, tmp6 and hash %+ d, HASH_MASK ; state->head[hash] = k; mov [stream + _internal_state_head + 2 * hash], tmp3 %+ w skip_hash_update: write_dword code2, m_out_buf shr code2, DIST_OFFSET and code2, 0x1F inc word [stream + _internal_state_hist_dist + HIST_ELEM_SIZE*code2] ; continue cmp f_i, [rsp + f_end_i_mem_offset] jl loop2 jmp end_loop_2 encode_literal: ; get_lit_code(state->file_start[f_i], &code2, &code_len2); movzx tmp5, byte [file_start + f_i] inc word [stream + _internal_state_hist_lit_len + HIST_ELEM_SIZE*tmp5] or tmp5, LIT write_dword tmp5, m_out_buf ; continue add f_i, 1 cmp f_i, [rsp + f_end_i_mem_offset] jl loop2 end_loop_2: mov f_end_i, [rsp + f_end_i_mem_offset] add f_end_i, LAST_BYTES_COUNT mov [rsp + f_end_i_mem_offset], f_end_i ; if ((f_i >= f_end_i) && ! state->bitbuf.is_full()) { cmp f_i, f_end_i jge input_end xor tmp5, tmp5 final_bytes: cmp m_out_buf, [rsp + m_out_end] ja out_end movzx tmp5, byte [file_start + f_i] inc word [stream + _internal_state_hist_lit_len + HIST_ELEM_SIZE*tmp5] or tmp5, LIT write_dword tmp5, m_out_buf inc f_i cmp f_i, [rsp + f_end_i_mem_offset] jl final_bytes input_end: cmp dword [stream + _end_of_stream], 0 jne out_end cmp dword [stream + _flush], _NO_FLUSH jne out_end jmp end out_end: mov dword [stream + _internal_state_state], ZSTATE_CREATE_HDR end: ;; Update input buffer mov f_end_i, [rsp + f_end_i_mem_offset] mov [stream + _total_in], f_i %+ d add file_start, f_i mov [stream + _next_in], file_start sub f_end_i, f_i mov [stream + _avail_in], f_end_i %+ d ;; Update output buffer mov tmp1, [stream + _level_buf] mov [tmp1 + _icf_buf_next], m_out_buf ; len = state->bitbuf.buffer_used(); sub m_out_buf, [rsp + m_out_start] ; stream->avail_out -= len; sub [tmp1 + _icf_buf_avail_out], m_out_buf add rsp, stack_size POP_ALL ret section .data align 4 c258: dq 258