uBlock/src/js/lz4.js
Raymond Hill 69c87c5117
Fix Promise chain of WASM module load operations
The Promise chain was not properly designed for WASM module
loading. This became apparent when removing WASM modules
from Opera build[1].

The problem was that errors thrown by fetch() -- used to
load WASM modules -- were not properly handled.

[1] Opera refuses updating uBO if there are unrecognized file
types in the package, and `.wasm`/`.wat` files are not
recognized by Opera uploader.
2019-02-01 08:20:43 -05:00

210 lines
6.9 KiB
JavaScript

/*******************************************************************************
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
*/
/* global lz4BlockCodec */
'use strict';
/*******************************************************************************
Experimental support for storage compression.
For background information on the topic, see:
https://github.com/uBlockOrigin/uBlock-issues/issues/141#issuecomment-407737186
**/
µBlock.lz4Codec = (function() { // >>>> Start of private namespace
/******************************************************************************/
let lz4CodecInstance;
let pendingInitialization;
let textEncoder, textDecoder;
let ttlCount = 0;
let ttlTimer;
let ttlDelay = 60000;
const init = function() {
ttlDelay = µBlock.hiddenSettings.autoUpdateAssetFetchPeriod * 1000 + 15000;
if ( lz4CodecInstance === null ) {
return Promise.resolve(null);
}
if ( lz4CodecInstance !== undefined ) {
return Promise.resolve(lz4CodecInstance);
}
if ( pendingInitialization === undefined ) {
let flavor;
if ( µBlock.hiddenSettings.disableWebAssembly === true ) {
flavor = 'js';
}
pendingInitialization = lz4BlockCodec.createInstance(flavor)
.then(instance => {
lz4CodecInstance = instance;
pendingInitialization = undefined;
});
}
return pendingInitialization;
};
// We can't shrink memory usage of lz4 codec instances, and in the
// current case memory usage can grow to a significant amount given
// that a single contiguous memory buffer is required to accommodate
// both input and output data. Thus a time-to-live implementation
// which will cause the wasm instance to be forgotten after enough
// time elapse without the instance being used.
const destroy = function() {
//if ( lz4CodecInstance !== undefined ) {
// console.info(
// 'uBO: freeing lz4-block-codec instance (%s KB)',
// lz4CodecInstance.bytesInUse() >>> 10
// );
//}
lz4CodecInstance = undefined;
textEncoder = textDecoder = undefined;
ttlCount = 0;
ttlTimer = undefined;
};
const ttlManage = function(count) {
if ( ttlTimer !== undefined ) {
clearTimeout(ttlTimer);
ttlTimer = undefined;
}
ttlCount += count;
if ( ttlCount > 0 ) { return; }
if ( lz4CodecInstance === null ) { return; }
ttlTimer = vAPI.setTimeout(destroy, ttlDelay);
};
const uint8ArrayFromBlob = function(key, data) {
if ( data instanceof Blob === false ) {
return Promise.resolve({ key, data });
}
return new Promise(resolve => {
let blobReader = new FileReader();
blobReader.onloadend = ev => {
resolve({ key, data: new Uint8Array(ev.target.result) });
};
blobReader.readAsArrayBuffer(data);
});
};
const encodeValue = function(key, value) {
if ( !lz4CodecInstance ) { return; }
//let t0 = window.performance.now();
if ( textEncoder === undefined ) {
textEncoder = new TextEncoder();
}
let inputArray = textEncoder.encode(value);
let inputSize = inputArray.byteLength;
let outputArray = lz4CodecInstance.encodeBlock(inputArray, 8);
if ( outputArray instanceof Uint8Array === false ) { return; }
outputArray[0] = 0x18;
outputArray[1] = 0x4D;
outputArray[2] = 0x22;
outputArray[3] = 0x04;
outputArray[4] = (inputSize >>> 0) & 0xFF;
outputArray[5] = (inputSize >>> 8) & 0xFF;
outputArray[6] = (inputSize >>> 16) & 0xFF;
outputArray[7] = (inputSize >>> 24) & 0xFF;
//console.info(
// 'uBO: [%s] compressed %d KB => %d KB (%s%%) in %s ms',
// key,
// inputArray.byteLength >> 10,
// outputArray.byteLength >> 10,
// (outputArray.byteLength / inputArray.byteLength * 100).toFixed(0),
// (window.performance.now() - t0).toFixed(1)
//);
return outputArray;
};
const decodeValue = function(key, inputArray) {
if ( !lz4CodecInstance ) { return; }
//let t0 = window.performance.now();
if (
inputArray[0] !== 0x18 || inputArray[1] !== 0x4D ||
inputArray[2] !== 0x22 || inputArray[3] !== 0x04
) {
return;
}
let outputSize =
(inputArray[4] << 0) | (inputArray[5] << 8) |
(inputArray[6] << 16) | (inputArray[7] << 24);
let outputArray = lz4CodecInstance.decodeBlock(inputArray, 8, outputSize);
if ( outputArray instanceof Uint8Array === false ) { return; }
if ( textDecoder === undefined ) {
textDecoder = new TextDecoder();
}
let value = textDecoder.decode(outputArray);
//console.info(
// 'uBO: [%s] decompressed %d KB => %d KB (%s%%) in %s ms',
// key,
// inputArray.byteLength >>> 10,
// outputSize >>> 10,
// (inputArray.byteLength / outputSize * 100).toFixed(0),
// (window.performance.now() - t0).toFixed(1)
//);
return value;
};
return {
encode: function(key, dataIn) {
if ( typeof dataIn !== 'string' || dataIn.length < 4096 ) {
return Promise.resolve({ key, data: dataIn });
}
ttlManage(1);
return init().then(( ) => {
ttlManage(-1);
let dataOut = encodeValue(key, dataIn) || dataIn;
if ( dataOut instanceof Uint8Array ) {
dataOut = new Blob([ dataOut ]);
}
return { key, data: dataOut || dataIn };
});
},
decode: function(key, dataIn) {
if ( dataIn instanceof Blob === false ) {
return Promise.resolve({ key, data: dataIn });
}
ttlManage(1);
return Promise.all([
init(),
uint8ArrayFromBlob(key, dataIn)
]).then(results => {
ttlManage(-1);
let result = results[1];
return {
key: result.key,
data: decodeValue(result.key, result.data) || result.data
};
});
},
relinquish: function() {
ttlDelay = 1;
ttlManage(0);
},
};
/******************************************************************************/
})(); // <<<< End of private namespace