;; ;; uBlock Origin - a browser extension to block requests. ;; Copyright (C) 2018-present Raymond Hill ;; ;; This program is free software: you can redistribute it and/or modify ;; it under the terms of the GNU General Public License as published by ;; the Free Software Foundation, either version 3 of the License, or ;; (at your option) any later version. ;; ;; This program is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; ;; You should have received a copy of the GNU General Public License ;; along with this program. If not, see {http://www.gnu.org/licenses/}. ;; ;; Home: https://github.com/gorhill/uBlock ;; File: hntrie.wat ;; Description: WebAssembly code used by src/js/hntrie.js ;; How to compile: See README.md in this directory. (module ;; ;; module start ;; (func $growBuf (import "imports" "growBuf")) (memory (import "imports" "memory") 1) ;; Trie container ;; ;; Memory layout, byte offset: ;; 0-254: needle being processed ;; 255: length of needle ;; 256-259: offset to start of trie data section (=> trie0) ;; 260-263: offset to end of trie data section (=> trie1) ;; 264-267: offset to start of character data section (=> char0) ;; 268-271: offset to end of character data section (=> char1) ;; 272: start of trie data section ;; ;; ;; Public functions ;; ;; ;; unsigned int matches(icell) ;; ;; Test whether the currently set needle matches the trie at specified trie ;; offset. ;; (func (export "matches") (param $iroot i32) ;; offset to root cell of the trie (result i32) ;; result = match index, -1 = miss (local $icell i32) ;; offset to the current cell (local $char0 i32) ;; offset to first character data (local $ineedle i32) ;; current needle offset (local $c i32) (local $v i32) (local $n i32) (local $i0 i32) (local $i1 i32) ;; i32.const 264 ;; start of char section is stored at addr 264 i32.load set_local $char0 ;; let ineedle = this.buf[255]; i32.const 255 ;; addr of needle is stored at addr 255 i32.load8_u set_local $ineedle ;; let icell = this.buf32[iroot+0]; get_local $iroot i32.const 2 i32.shl i32.load i32.const 2 i32.shl tee_local $icell ;; if ( icell === 0 ) { return -1; } i32.eqz if i32.const -1 return end ;; for (;;) { block $noSegment loop $nextSegment ;; if ( ineedle === 0 ) { return -1; } get_local $ineedle i32.eqz if i32.const -1 return end ;; ineedle -= 1; get_local $ineedle i32.const -1 i32.add tee_local $ineedle ;; let c = this.buf[ineedle]; i32.load8_u set_local $c ;; for (;;) { block $foundSegment loop $findSegment ;; v = this.buf32[icell+2]; get_local $icell i32.load offset=8 tee_local $v ;; i0 = this.char0 + (v & 0x00FFFFFF); i32.const 0x00FFFFFF i32.and get_local $char0 i32.add tee_local $i0 ;; if ( this.buf[i0] === c ) { break; } i32.load8_u get_local $c i32.eq br_if $foundSegment ;; icell = this.buf32[icell+0]; get_local $icell i32.load i32.const 2 i32.shl tee_local $icell i32.eqz if i32.const -1 return end br 0 end end ;; let n = v >>> 24; get_local $v i32.const 24 i32.shr_u tee_local $n ;; if ( n > 1 ) { i32.const 1 i32.gt_u if ;; n -= 1; get_local $n i32.const -1 i32.add tee_local $n ;; if ( n > ineedle ) { return -1; } get_local $ineedle i32.gt_u if i32.const -1 return end get_local $i0 i32.const 1 i32.add tee_local $i0 ;; const i1 = i0 + n; get_local $n i32.add set_local $i1 ;; do { loop ;; ineedle -= 1; get_local $ineedle i32.const -1 i32.add tee_local $ineedle ;; if ( this.buf[i0] !== this.buf[ineedle] ) { return -1; } i32.load8_u get_local $i0 i32.load8_u i32.ne if i32.const -1 return end ;; i0 += 1; get_local $i0 i32.const 1 i32.add tee_local $i0 ;; } while ( i0 < i1 ); get_local $i1 i32.lt_u br_if 0 end end ;; icell = this.buf32[icell+1]; get_local $icell i32.load offset=4 i32.const 2 i32.shl tee_local $icell ;; if ( icell === 0 ) { break; } i32.eqz br_if $noSegment ;; if ( this.buf32[icell+2] === 0 ) { get_local $icell i32.load i32.eqz if ;; if ( ineedle === 0 || this.buf[ineedle-1] === 0x2E ) { ;; return ineedle; ;; } get_local $ineedle i32.eqz if i32.const 0 return end get_local $ineedle i32.const -1 i32.add i32.load8_u i32.const 0x2E i32.eq if get_local $ineedle return end ;; icell = this.buf32[icell+1]; get_local $icell i32.load offset=4 i32.const 2 i32.shl set_local $icell end br 0 end end ;; return ineedle === 0 || this.buf[ineedle-1] === 0x2E ? ineedle : -1; get_local $ineedle i32.eqz if i32.const 0 return end get_local $ineedle i32.const -1 i32.add i32.load8_u i32.const 0x2E i32.eq if get_local $ineedle return end i32.const -1 ) ;; ;; unsigned int add(icell) ;; ;; Add a new hostname to a trie which root cell is passed as argument. ;; (func (export "add") (param $iroot i32) ;; index of root cell of the trie (result i32) ;; result: 0 not added, 1 = added (local $icell i32) ;; index of current cell in the trie (local $lhnchar i32) ;; number of characters left to process in hostname (local $char0 i32) ;; offset to start of character data section (local $vseg i32) ;; integer value describing a segment (local $isegchar0 i32) ;; offset to start of current segment's character data (local $isegchar i32) (local $lsegchar i32) ;; number of character in current segment (local $inext i32) ;; index of next cell to process ;; ;; let lhnchar = this.buf[255]; i32.const 255 i32.load8_u tee_local $lhnchar ;; if ( lhnchar === 0 ) { return 0; } i32.eqz if i32.const 0 return end ;; if ( ;; (this.buf32[HNBIGTRIE_CHAR0_SLOT] - this.buf32[HNBIGTRIE_TRIE1_SLOT]) < 24 || ;; (this.buf.length - this.buf32[HNBIGTRIE_CHAR1_SLOT]) < 256 ;; ) { ;; this.growBuf(); ;; } i32.const 264 i32.load i32.const 260 i32.load i32.sub i32.const 24 i32.lt_u if call $growBuf else memory.size i32.const 16 i32.shl i32.const 268 i32.load i32.sub i32.const 256 i32.lt_u if call $growBuf end end ;; let icell = this.buf32[iroot+0]; get_local $iroot i32.const 2 i32.shl tee_local $iroot i32.load i32.const 2 i32.shl tee_local $icell ;; if ( this.buf32[icell+2] === 0 ) { i32.eqz if ;; this.buf32[iroot+0] = this.addCell(0, 0, this.addSegment(lhnchar)); ;; return 1; get_local $iroot i32.const 0 i32.const 0 get_local $lhnchar call $addSegment call $addCell i32.store i32.const 1 return end ;; const char0 = this.buf32[HNBIGTRIE_CHAR0_SLOT]; i32.const 264 i32.load set_local $char0 ;; for (;;) { loop $nextSegment ;; const v = this.buf32[icell+2]; get_local $icell i32.load offset=8 tee_local $vseg ;; if ( vseg === 0 ) { i32.eqz if ;; if ( this.buf[lhnchar-1] === 0x2E /* '.' */ ) { return -1; } get_local $lhnchar i32.const -1 i32.add i32.load8_u i32.const 0x2E i32.eq if i32.const -1 return end ;; icell = this.buf32[icell+1]; ;; continue; get_local $icell i32.load offset=4 i32.const 2 i32.shl set_local $icell br $nextSegment end ;; let isegchar0 = char0 + (vseg & 0x00FFFFFF); get_local $char0 get_local $vseg i32.const 0x00FFFFFF i32.and i32.add tee_local $isegchar0 ;; if ( this.buf[isegchar0] !== this.buf[lhnchar-1] ) { i32.load8_u get_local $lhnchar i32.const -1 i32.add i32.load8_u i32.ne if ;; inext = this.buf32[icell+0]; get_local $icell i32.load i32.const 2 i32.shl tee_local $inext ;; if ( inext === 0 ) { i32.eqz if ;; this.buf32[icell+0] = this.addCell(0, 0, this.addSegment(lhnchar)); get_local $icell i32.const 0 i32.const 0 get_local $lhnchar call $addSegment call $addCell i32.store ;; return 1; i32.const 1 return end ;; icell = inext; get_local $inext set_local $icell br $nextSegment end ;; let isegchar = 1; i32.const 1 set_local $isegchar ;; lhnchar -= 1; get_local $lhnchar i32.const -1 i32.add set_local $lhnchar ;; const lsegchar = vseg >>> 24; get_local $vseg i32.const 24 i32.shr_u tee_local $lsegchar ;; if ( lsegchar !== 1 ) { i32.const 1 i32.ne if ;; for (;;) { block $mismatch loop ;; if ( isegchar === lsegchar ) { break; } get_local $isegchar get_local $lsegchar i32.eq br_if $mismatch get_local $lhnchar i32.eqz br_if $mismatch ;; if ( this.buf[isegchar0+isegchar] !== this.buf[lhnchar-1] ) { break; } get_local $isegchar0 get_local $isegchar i32.add i32.load8_u get_local $lhnchar i32.const -1 i32.add i32.load8_u i32.ne br_if $mismatch ;; isegchar += 1; get_local $isegchar i32.const 1 i32.add set_local $isegchar ;; lhnchar -= 1; get_local $lhnchar i32.const -1 i32.add set_local $lhnchar br 0 end end end ;; if ( isegchar === lsegchar ) { get_local $isegchar get_local $lsegchar i32.eq if ;; inext = this.buf32[icell+1]; get_local $icell i32.load offset=4 i32.const 2 i32.shl set_local $inext ;; if ( lhnchar === 0 ) { get_local $lhnchar i32.eqz if ;; if ( inext === 0 || this.buf32[inext+2] === 0 ) { return 0; } get_local $inext i32.eqz if i32.const 0 return end get_local $inext i32.load offset=8 i32.eqz if i32.const 0 return end ;; this.buf32[icell+1] = this.addCell(0, inext, 0); get_local $icell i32.const 0 get_local $inext i32.const 2 i32.shr_u i32.const 0 call $addCell i32.store offset=4 else ;; if ( inext !== 0 ) { get_local $inext if ;; icell = inext; get_local $inext set_local $icell br $nextSegment end ;; if ( this.buf[lhnchar-1] === 0x2E /* '.' */ ) { return -1; } get_local $lhnchar i32.const -1 i32.add i32.load8_u i32.const 0x2E i32.eq if i32.const -1 return end ;; inext = this.addCell(0, 0, 0); ;; this.buf32[icell+1] = inext; get_local $icell i32.const 0 i32.const 0 i32.const 0 call $addCell tee_local $inext i32.store offset=4 ;; this.buf32[inext+1] = this.addCell(0, 0, this.addSegment(lhnchar)); get_local $inext i32.const 2 i32.shl i32.const 0 i32.const 0 get_local $lhnchar call $addSegment call $addCell i32.store offset=4 end else ;; isegchar0 -= char0; get_local $icell get_local $isegchar0 get_local $char0 i32.sub tee_local $isegchar0 ;; this.buf32[icell+2] = isegchar << 24 | isegchar0; get_local $isegchar i32.const 24 i32.shl i32.or i32.store offset=8 ;; inext = this.addCell( ;; 0, ;; this.buf32[icell+1], ;; lsegchar - isegchar << 24 | isegchar0 + isegchar ;; ); ;; this.buf32[icell+1] = inext; get_local $icell i32.const 0 get_local $icell i32.load offset=4 get_local $lsegchar get_local $isegchar i32.sub i32.const 24 i32.shl get_local $isegchar0 get_local $isegchar i32.add i32.or call $addCell tee_local $inext i32.store offset=4 ;; if ( lhnchar === 0 ) { get_local $lhnchar i32.eqz if ;; this.buf32[icell+1] = this.addCell(0, inext, 0); get_local $icell i32.const 0 get_local $inext i32.const 0 call $addCell i32.store offset=4 else ;; this.buf32[inext+0] = this.addCell(0, 0, this.addSegment(lhnchar)); get_local $inext i32.const 2 i32.shl i32.const 0 i32.const 0 get_local $lhnchar call $addSegment call $addCell i32.store end end ;; return 1; i32.const 1 return end ;; i32.const 1 ) ;; ;; Private functions ;; ;; ;; unsigned int addCell(idown, iright, vseg) ;; ;; Add a new cell, return cell index. ;; (func $addCell (param $idown i32) (param $iright i32) (param $vseg i32) (result i32) ;; result: index of added cell (local $icell i32) ;; ;; let icell = this.buf32[HNBIGTRIE_TRIE1_SLOT]; ;; this.buf32[HNBIGTRIE_TRIE1_SLOT] = icell + 12; i32.const 260 i32.const 260 i32.load tee_local $icell i32.const 12 i32.add i32.store ;; this.buf32[icell+0] = idown; get_local $icell get_local $idown i32.store ;; this.buf32[icell+1] = iright; get_local $icell get_local $iright i32.store offset=4 ;; this.buf32[icell+2] = v; get_local $icell get_local $vseg i32.store offset=8 ;; return icell; get_local $icell i32.const 2 i32.shr_u ) ;; ;; unsigned int addSegment(lsegchar) ;; ;; Store a segment of characters and return a segment descriptor. The segment ;; is created from the character data in the needle buffer. ;; (func $addSegment (param $lsegchar i32) (result i32) ;; result: segment descriptor (local $char1 i32) ;; offset to end of character data section (local $isegchar i32) ;; relative offset to first character of segment (local $i i32) ;; iterator ;; ;; if ( lsegchar === 0 ) { return 0; } get_local $lsegchar i32.eqz if i32.const 0 return end ;; let char1 = this.buf32[HNBIGTRIE_CHAR1_SLOT]; i32.const 268 i32.load tee_local $char1 ;; const isegchar = char1 - this.buf32[HNBIGTRIE_CHAR0_SLOT]; i32.const 264 i32.load i32.sub set_local $isegchar ;; let i = lsegchar; get_local $lsegchar set_local $i ;; do { block $endOfSegment loop ;; this.buf[char1++] = this.buf[--i]; get_local $char1 get_local $i i32.const -1 i32.add tee_local $i i32.load8_u i32.store8 get_local $char1 i32.const 1 i32.add set_local $char1 ;; } while ( i !== 0 ); get_local $i i32.eqz br_if $endOfSegment br 0 end end ;; this.buf32[HNBIGTRIE_CHAR1_SLOT] = char1; i32.const 268 get_local $char1 i32.store ;; return (lsegchar << 24) | isegchar; get_local $lsegchar i32.const 24 i32.shl get_local $isegchar i32.or ) ;; ;; module end ;; )