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Basi comic reader implementation for cbr, cbz, cbt files based on kthoom (#63, #126)

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pull/346/head
OzzieIsaacs 7 years ago
parent 4582aebec1 b3217496d1
commit fe4d11fea8
10 changed files with 3299 additions and 10 deletions
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105
cps/static/css/kthoom.css
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body {
background: #444;
overflow: hidden;
color: white;
font-family: sans-serif;
margin: 0px;
}
.main {
position: re;
left: 5px;
overflow: hidden;
right: 5px;
text-align: center;
top: 5px;
}
#progress {
position: absolute;
display: inline;
left: 90px;
right: 160px;
height: 20px;
margin-top: 1px;
text-align: right;
}
.hide {
display: none !important;
}
#mainText {
text-align: left;
width: 90%;
position: relative;
top: 10px;
background: #ccc;
color: black;
margin-right: auto;
margin-left: auto;
padding: 10px;
word-wrap: break-word;
}
#mainImage{
margin-top: 32px;
}
#titlebar.main {
opacity: 0;
position: absolute;
top: 0;
height: 30px;
left: 0;
right: 0;
background-color: black;
padding-bottom: 70px;
-webkit-transition: opacity 0.2s ease;
-moz-transition: opacity 0.2s ease;
transition: opacity 0.2s ease;
background: -moz-linear-gradient(top, rgba(0,2,34,1) 0%, rgba(0,1,24,1) 30%, rgba(0,0,0,0) 100%); /* FF3.6+ */
background: -webkit-gradient(linear, left top, left bottom, color-stop(0%,rgba(0,2,34,1)), color-stop(30%,rgba(0,1,24,1)), color-stop(100%,rgba(0,0,0,0))); /* Chrome,Safari4+ */
background: -webkit-linear-gradient(top, rgba(0,2,34,1) 0%,rgba(0,1,24,1) 30%,rgba(0,0,0,0) 100%); /* Chrome10+,Safari5.1+ */
background: -o-linear-gradient(top, rgba(0,2,34,1) 0%,rgba(0,1,24,1) 30%,rgba(0,0,0,0) 100%); /* Opera11.10+ */
background: -ms-linear-gradient(top, rgba(0,2,34,1) 0%,rgba(0,1,24,1) 30%,rgba(0,0,0,0) 100%); /* IE10+ */
filter: progid:DXImageTransform.Microsoft.gradient( startColorstr='#000222', endColorstr='#00000000',GradientType=0 ); /* IE6-9 */
background: linear-gradient(top, rgba(0,2,34,1) 0%,rgba(0,1,24,1) 30%,rgba(0,0,0,0) 100%); /* W3C */
}
#prev {
left: 40px;
}
#next {
right: 40px;
}
.arrow {
position: absolute;
top: 50%;
margin-top: -32px;
font-size: 64px;
color: #E2E2E2;
font-family: arial, sans-serif;
font-weight: bold;
cursor: pointer;
-webkit-user-select: none;
-khtml-user-select: none;
-moz-user-select: none;
-ms-user-select: none;
user-select: none;
}
.arrow:hover {
color: #777;
}
.arrow:active,
.arrow.active {
color: #000;
}

353
cps/static/js/archive.js
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/**
* archive.js
*
* Provides base functionality for unarchiving.
*
* Licensed under the MIT License
*
* Copyright(c) 2011 Google Inc.
*/
var bitjs = bitjs || {};
bitjs.archive = bitjs.archive || {};
(function() {
// ===========================================================================
// Stolen from Closure because it's the best way to do Java-like inheritance.
bitjs.base = function(me, opt_methodName, var_args) {
var caller = arguments.callee.caller;
if (caller.superClass_) {
// This is a constructor. Call the superclass constructor.
return caller.superClass_.constructor.apply(
me, Array.prototype.slice.call(arguments, 1));
}
var args = Array.prototype.slice.call(arguments, 2);
var foundCaller = false;
for (var ctor = me.constructor;
ctor; ctor = ctor.superClass_ && ctor.superClass_.constructor) {
if (ctor.prototype[opt_methodName] === caller) {
foundCaller = true;
} else if (foundCaller) {
return ctor.prototype[opt_methodName].apply(me, args);
}
}
// If we did not find the caller in the prototype chain,
// then one of two things happened:
// 1) The caller is an instance method.
// 2) This method was not called by the right caller.
if (me[opt_methodName] === caller) {
return me.constructor.prototype[opt_methodName].apply(me, args);
} else {
throw Error(
'goog.base called from a method of one name ' +
'to a method of a different name');
}
};
bitjs.inherits = function(childCtor, parentCtor) {
/** @constructor */
function tempCtor() {};
tempCtor.prototype = parentCtor.prototype;
childCtor.superClass_ = parentCtor.prototype;
childCtor.prototype = new tempCtor();
childCtor.prototype.constructor = childCtor;
};
// ===========================================================================
/**
* An unarchive event.
*
* @param {string} type The event type.
* @constructor
*/
bitjs.archive.UnarchiveEvent = function(type) {
/**
* The event type.
*
* @type {string}
*/
this.type = type;
};
/**
* The UnarchiveEvent types.
*/
bitjs.archive.UnarchiveEvent.Type = {
START: 'start',
PROGRESS: 'progress',
EXTRACT: 'extract',
FINISH: 'finish',
INFO: 'info',
ERROR: 'error'
};
/**
* Useful for passing info up to the client (for debugging).
*
* @param {string} msg The info message.
*/
bitjs.archive.UnarchiveInfoEvent = function(msg) {
bitjs.base(this, bitjs.archive.UnarchiveEvent.Type.INFO);
/**
* The information message.
*
* @type {string}
*/
this.msg = msg;
};
bitjs.inherits(bitjs.archive.UnarchiveInfoEvent, bitjs.archive.UnarchiveEvent);
/**
* An unrecoverable error has occured.
*
* @param {string} msg The error message.
*/
bitjs.archive.UnarchiveErrorEvent = function(msg) {
bitjs.base(this, bitjs.archive.UnarchiveEvent.Type.ERROR);
/**
* The information message.
*
* @type {string}
*/
this.msg = msg;
};
bitjs.inherits(bitjs.archive.UnarchiveErrorEvent, bitjs.archive.UnarchiveEvent);
/**
* Start event.
*
* @param {string} msg The info message.
*/
bitjs.archive.UnarchiveStartEvent = function() {
bitjs.base(this, bitjs.archive.UnarchiveEvent.Type.START);
};
bitjs.inherits(bitjs.archive.UnarchiveStartEvent, bitjs.archive.UnarchiveEvent);
/**
* Finish event.
*
* @param {string} msg The info message.
*/
bitjs.archive.UnarchiveFinishEvent = function() {
bitjs.base(this, bitjs.archive.UnarchiveEvent.Type.FINISH);
};
bitjs.inherits(bitjs.archive.UnarchiveFinishEvent, bitjs.archive.UnarchiveEvent);
/**
* Progress event.
*/
bitjs.archive.UnarchiveProgressEvent = function(
currentFilename,
currentFileNumber,
currentBytesUnarchivedInFile,
currentBytesUnarchived,
totalUncompressedBytesInArchive,
totalFilesInArchive) {
bitjs.base(this, bitjs.archive.UnarchiveEvent.Type.PROGRESS);
this.currentFilename = currentFilename;
this.currentFileNumber = currentFileNumber;
this.currentBytesUnarchivedInFile = currentBytesUnarchivedInFile;
this.totalFilesInArchive = totalFilesInArchive;
this.currentBytesUnarchived = currentBytesUnarchived;
this.totalUncompressedBytesInArchive = totalUncompressedBytesInArchive;
};
bitjs.inherits(bitjs.archive.UnarchiveProgressEvent, bitjs.archive.UnarchiveEvent);
/**
* All extracted files returned by an Unarchiver will implement
* the following interface:
*
* interface UnarchivedFile {
* string filename
* TypedArray fileData
* }
*
*/
/**
* Extract event.
*/
bitjs.archive.UnarchiveExtractEvent = function(unarchivedFile) {
bitjs.base(this, bitjs.archive.UnarchiveEvent.Type.EXTRACT);
/**
* @type {UnarchivedFile}
*/
this.unarchivedFile = unarchivedFile;
};
bitjs.inherits(bitjs.archive.UnarchiveExtractEvent, bitjs.archive.UnarchiveEvent);
/**
* Base class for all Unarchivers.
*
* @param {ArrayBuffer} arrayBuffer The Array Buffer.
* @param {string} opt_pathToBitJS Optional string for where the BitJS files are located.
* @constructor
*/
bitjs.archive.Unarchiver = function(arrayBuffer, opt_pathToBitJS) {
/**
* The ArrayBuffer object.
* @type {ArrayBuffer}
* @protected
*/
this.ab = arrayBuffer;
/**
* The path to the BitJS files.
* @type {string}
* @private
*/
this.pathToBitJS_ = opt_pathToBitJS || '';
/**
* A map from event type to an array of listeners.
* @type {Map.<string, Array>}
*/
this.listeners_ = {};
for (var type in bitjs.archive.UnarchiveEvent.Type) {
this.listeners_[bitjs.archive.UnarchiveEvent.Type[type]] = [];
}
};
/**
* Private web worker initialized during start().
* @type {Worker}
* @private
*/
bitjs.archive.Unarchiver.prototype.worker_ = null;
/**
* This method must be overridden by the subclass to return the script filename.
* @return {string} The script filename.
* @protected.
*/
bitjs.archive.Unarchiver.prototype.getScriptFileName = function() {
throw 'Subclasses of AbstractUnarchiver must overload getScriptFileName()';
};
/**
* Adds an event listener for UnarchiveEvents.
*
* @param {string} Event type.
* @param {function} An event handler function.
*/
bitjs.archive.Unarchiver.prototype.addEventListener = function(type, listener) {
if (type in this.listeners_) {
if (this.listeners_[type].indexOf(listener) == -1) {
this.listeners_[type].push(listener);
}
}
};
/**
* Removes an event listener.
*
* @param {string} Event type.
* @param {EventListener|function} An event listener or handler function.
*/
bitjs.archive.Unarchiver.prototype.removeEventListener = function(type, listener) {
if (type in this.listeners_) {
var index = this.listeners_[type].indexOf(listener);
if (index != -1) {
this.listeners_[type].splice(index, 1);
}
}
};
/**
* Receive an event and pass it to the listener functions.
*
* @param {bitjs.archive.UnarchiveEvent} e
* @private
*/
bitjs.archive.Unarchiver.prototype.handleWorkerEvent_ = function(e) {
if ((e instanceof bitjs.archive.UnarchiveEvent || e.type) &&
this.listeners_[e.type] instanceof Array) {
this.listeners_[e.type].forEach(function (listener) { listener(e) });
if (e.type == bitjs.archive.UnarchiveEvent.Type.FINISH) {
this.worker_.terminate();
}
} else {
console.log(e);
}
};
/**
* Starts the unarchive in a separate Web Worker thread and returns immediately.
*/
bitjs.archive.Unarchiver.prototype.start = function() {
var me = this;
var scriptFileName = this.pathToBitJS_ + this.getScriptFileName();
if (scriptFileName) {
this.worker_ = new Worker(scriptFileName);
this.worker_.onerror = function(e) {
console.log('Worker error: message = ' + e.message);
throw e;
};
this.worker_.onmessage = function(e) {
if (typeof e.data == 'string') {
// Just log any strings the workers pump our way.
console.log(e.data);
} else {
// Assume that it is an UnarchiveEvent. Some browsers preserve the 'type'
// so that instanceof UnarchiveEvent returns true, but others do not.
me.handleWorkerEvent_(e.data);
}
};
this.worker_.postMessage({file: this.ab});
}
};
/**
* Terminates the Web Worker for this Unarchiver and returns immediately.
*/
bitjs.archive.Unarchiver.prototype.stop = function() {
if (this.worker_) {
this.worker_.terminate();
}
};
/**
* Unzipper
* @extends {bitjs.archive.Unarchiver}
* @constructor
*/
bitjs.archive.Unzipper = function(arrayBuffer, opt_pathToBitJS) {
bitjs.base(this, arrayBuffer, opt_pathToBitJS);
};
bitjs.inherits(bitjs.archive.Unzipper, bitjs.archive.Unarchiver);
bitjs.archive.Unzipper.prototype.getScriptFileName = function() { return 'unzip.js' };
/**
* Unrarrer
* @extends {bitjs.archive.Unarchiver}
* @constructor
*/
bitjs.archive.Unrarrer = function(arrayBuffer, opt_pathToBitJS) {
bitjs.base(this, arrayBuffer, opt_pathToBitJS);
};
bitjs.inherits(bitjs.archive.Unrarrer, bitjs.archive.Unarchiver);
bitjs.archive.Unrarrer.prototype.getScriptFileName = function() { return 'unrar.js' };
/**
* Untarrer
* @extends {bitjs.archive.Unarchiver}
* @constructor
*/
bitjs.archive.Untarrer = function(arrayBuffer, opt_pathToBitJS) {
bitjs.base(this, arrayBuffer, opt_pathToBitJS);
};
bitjs.inherits(bitjs.archive.Untarrer, bitjs.archive.Unarchiver);
bitjs.archive.Untarrer.prototype.getScriptFileName = function() { return 'untar.js' };
})();

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cps/static/js/io.js
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/*
* io.js
*
* Provides readers for bit/byte streams (reading) and a byte buffer (writing).
*
* Licensed under the MIT License
*
* Copyright(c) 2011 Google Inc.
* Copyright(c) 2011 antimatter15
*/
var bitjs = bitjs || {};
bitjs.io = bitjs.io || {};
(function() {
// mask for getting the Nth bit (zero-based)
bitjs.BIT = [ 0x01, 0x02, 0x04, 0x08,
0x10, 0x20, 0x40, 0x80,
0x100, 0x200, 0x400, 0x800,
0x1000, 0x2000, 0x4000, 0x8000];
// mask for getting N number of bits (0-8)
var BITMASK = [0, 0x01, 0x03, 0x07, 0x0F, 0x1F, 0x3F, 0x7F, 0xFF ];
/**
* This bit stream peeks and consumes bits out of a binary stream.
*
* @param {ArrayBuffer} ab An ArrayBuffer object or a Uint8Array.
* @param {boolean} rtl Whether the stream reads bits from the byte starting
* from bit 7 to 0 (true) or bit 0 to 7 (false).
* @param {Number} opt_offset The offset into the ArrayBuffer
* @param {Number} opt_length The length of this BitStream
*/
bitjs.io.BitStream = function(ab, rtl, opt_offset, opt_length) {
if (!ab || !ab.toString || ab.toString() !== "[object ArrayBuffer]") {
throw "Error! BitArray constructed with an invalid ArrayBuffer object";
}
var offset = opt_offset || 0;
var length = opt_length || ab.byteLength;
this.bytes = new Uint8Array(ab, offset, length);
this.bytePtr = 0; // tracks which byte we are on
this.bitPtr = 0; // tracks which bit we are on (can have values 0 through 7)
this.peekBits = rtl ? this.peekBits_rtl : this.peekBits_ltr;
};
/**
* byte0 byte1 byte2 byte3
* 7......0 | 7......0 | 7......0 | 7......0
*
* The bit pointer starts at bit0 of byte0 and moves left until it reaches
* bit7 of byte0, then jumps to bit0 of byte1, etc.
* @param {number} n The number of bits to peek.
* @param {boolean=} movePointers Whether to move the pointer, defaults false.
* @return {number} The peeked bits, as an unsigned number.
*/
bitjs.io.BitStream.prototype.peekBits_ltr = function(n, movePointers) {
if (n <= 0 || typeof n != typeof 1) {
return 0;
}
var movePointers = movePointers || false,
bytePtr = this.bytePtr,
bitPtr = this.bitPtr,
result = 0,
bitsIn = 0,
bytes = this.bytes;
// keep going until we have no more bits left to peek at
// TODO: Consider putting all bits from bytes we will need into a variable and then
// shifting/masking it to just extract the bits we want.
// This could be considerably faster when reading more than 3 or 4 bits at a time.
while (n > 0) {
if (bytePtr >= bytes.length) {
throw "Error! Overflowed the bit stream! n=" + n + ", bytePtr=" + bytePtr + ", bytes.length=" +
bytes.length + ", bitPtr=" + bitPtr;
return -1;
}
var numBitsLeftInThisByte = (8 - bitPtr);
if (n >= numBitsLeftInThisByte) {
var mask = (BITMASK[numBitsLeftInThisByte] << bitPtr);
result |= (((bytes[bytePtr] & mask) >> bitPtr) << bitsIn);
bytePtr++;
bitPtr = 0;
bitsIn += numBitsLeftInThisByte;
n -= numBitsLeftInThisByte;
}
else {
var mask = (BITMASK[n] << bitPtr);
result |= (((bytes[bytePtr] & mask) >> bitPtr) << bitsIn);
bitPtr += n;
bitsIn += n;
n = 0;
}
}
if (movePointers) {
this.bitPtr = bitPtr;
this.bytePtr = bytePtr;
}
return result;
};
/**
* byte0 byte1 byte2 byte3
* 7......0 | 7......0 | 7......0 | 7......0
*
* The bit pointer starts at bit7 of byte0 and moves right until it reaches
* bit0 of byte0, then goes to bit7 of byte1, etc.
* @param {number} n The number of bits to peek.
* @param {boolean=} movePointers Whether to move the pointer, defaults false.
* @return {number} The peeked bits, as an unsigned number.
*/
bitjs.io.BitStream.prototype.peekBits_rtl = function(n, movePointers) {
if (n <= 0 || typeof n != typeof 1) {
return 0;
}
var movePointers = movePointers || false,
bytePtr = this.bytePtr,
bitPtr = this.bitPtr,
result = 0,
bytes = this.bytes;
// keep going until we have no more bits left to peek at
// TODO: Consider putting all bits from bytes we will need into a variable and then
// shifting/masking it to just extract the bits we want.
// This could be considerably faster when reading more than 3 or 4 bits at a time.
while (n > 0) {
if (bytePtr >= bytes.length) {
throw "Error! Overflowed the bit stream! n=" + n + ", bytePtr=" + bytePtr + ", bytes.length=" +
bytes.length + ", bitPtr=" + bitPtr;
return -1;
}
var numBitsLeftInThisByte = (8 - bitPtr);
if (n >= numBitsLeftInThisByte) {
result <<= numBitsLeftInThisByte;
result |= (BITMASK[numBitsLeftInThisByte] & bytes[bytePtr]);
bytePtr++;
bitPtr = 0;
n -= numBitsLeftInThisByte;
}
else {
result <<= n;
result |= ((bytes[bytePtr] & (BITMASK[n] << (8 - n - bitPtr))) >> (8 - n - bitPtr));
bitPtr += n;
n = 0;
}
}
if (movePointers) {
this.bitPtr = bitPtr;
this.bytePtr = bytePtr;
}
return result;
};
/**
* Some voodoo magic.
*/
bitjs.io.BitStream.prototype.getBits = function() {
return (((((this.bytes[this.bytePtr] & 0xff) << 16) +
((this.bytes[this.bytePtr+1] & 0xff) << 8) +
((this.bytes[this.bytePtr+2] & 0xff))) >>> (8-this.bitPtr)) & 0xffff);
};
/**
* Reads n bits out of the stream, consuming them (moving the bit pointer).
* @param {number} n The number of bits to read.
* @return {number} The read bits, as an unsigned number.
*/
bitjs.io.BitStream.prototype.readBits = function(n) {
return this.peekBits(n, true);
};
/**
* This returns n bytes as a sub-array, advancing the pointer if movePointers
* is true. Only use this for uncompressed blocks as this throws away remaining
* bits in the current byte.
* @param {number} n The number of bytes to peek.
* @param {boolean=} movePointers Whether to move the pointer, defaults false.
* @return {Uint8Array} The subarray.
*/
bitjs.io.BitStream.prototype.peekBytes = function(n, movePointers) {
if (n <= 0 || typeof n != typeof 1) {
return 0;
}
// from http://tools.ietf.org/html/rfc1951#page-11
// "Any bits of input up to the next byte boundary are ignored."
while (this.bitPtr != 0) {
this.readBits(1);
}
var movePointers = movePointers || false;
var bytePtr = this.bytePtr,
bitPtr = this.bitPtr;
var result = this.bytes.subarray(bytePtr, bytePtr + n);
if (movePointers) {
this.bytePtr += n;
}
return result;
};
/**
* @param {number} n The number of bytes to read.
* @return {Uint8Array} The subarray.
*/
bitjs.io.BitStream.prototype.readBytes = function(n) {
return this.peekBytes(n, true);
};
/**
* This object allows you to peek and consume bytes as numbers and strings
* out of an ArrayBuffer. In this buffer, everything must be byte-aligned.
*
* @param {ArrayBuffer} ab The ArrayBuffer object.
* @param {number=} opt_offset The offset into the ArrayBuffer
* @param {number=} opt_length The length of this BitStream
* @constructor
*/
bitjs.io.ByteStream = function(ab, opt_offset, opt_length) {
var offset = opt_offset || 0;
var length = opt_length || ab.byteLength;
this.bytes = new Uint8Array(ab, offset, length);
this.ptr = 0;
};
/**
* Peeks at the next n bytes as an unsigned number but does not advance the
* pointer
* TODO: This apparently cannot read more than 4 bytes as a number?
* @param {number} n The number of bytes to peek at.
* @return {number} The n bytes interpreted as an unsigned number.
*/
bitjs.io.ByteStream.prototype.peekNumber = function(n) {
// TODO: return error if n would go past the end of the stream?
if (n <= 0 || typeof n != typeof 1)
return -1;
var result = 0;
// read from last byte to first byte and roll them in
var curByte = this.ptr + n - 1;
while (curByte >= this.ptr) {
result <<= 8;
result |= this.bytes[curByte];
--curByte;
}
return result;
};
/**
* Returns the next n bytes as an unsigned number (or -1 on error)
* and advances the stream pointer n bytes.
* @param {number} n The number of bytes to read.
* @return {number} The n bytes interpreted as an unsigned number.
*/
bitjs.io.ByteStream.prototype.readNumber = function(n) {
var num = this.peekNumber( n );
this.ptr += n;
return num;
};
/**
* Returns the next n bytes as a signed number but does not advance the
* pointer.
* @param {number} n The number of bytes to read.
* @return {number} The bytes interpreted as a signed number.
*/
bitjs.io.ByteStream.prototype.peekSignedNumber = function(n) {
var num = this.peekNumber(n);
var HALF = Math.pow(2, (n * 8) - 1);
var FULL = HALF * 2;
if (num >= HALF) num -= FULL;
return num;
};
/**
* Returns the next n bytes as a signed number and advances the stream pointer.
* @param {number} n The number of bytes to read.
* @return {number} The bytes interpreted as a signed number.
*/
bitjs.io.ByteStream.prototype.readSignedNumber = function(n) {
var num = this.peekSignedNumber(n);
this.ptr += n;
return num;
};
/**
* This returns n bytes as a sub-array, advancing the pointer if movePointers
* is true.
* @param {number} n The number of bytes to read.
* @param {boolean} movePointers Whether to move the pointers.
* @return {Uint8Array} The subarray.
*/
bitjs.io.ByteStream.prototype.peekBytes = function(n, movePointers) {
if (n <= 0 || typeof n != typeof 1) {
return null;
}
var result = this.bytes.subarray(this.ptr, this.ptr + n);
if (movePointers) {
this.ptr += n;
}
return result;
};
/**
* Reads the next n bytes as a sub-array.
* @param {number} n The number of bytes to read.
* @return {Uint8Array} The subarray.
*/
bitjs.io.ByteStream.prototype.readBytes = function(n) {
return this.peekBytes(n, true);
};
/**
* Peeks at the next n bytes as a string but does not advance the pointer.
* @param {number} n The number of bytes to peek at.
* @return {string} The next n bytes as a string.
*/
bitjs.io.ByteStream.prototype.peekString = function(n) {
if (n <= 0 || typeof n != typeof 1) {
return "";
}
var result = "";
for (var p = this.ptr, end = this.ptr + n; p < end; ++p) {
result += String.fromCharCode(this.bytes[p]);
}
return result;
};
/**
* Returns the next n bytes as an ASCII string and advances the stream pointer
* n bytes.
* @param {number} n The number of bytes to read.
* @return {string} The next n bytes as a string.
*/
bitjs.io.ByteStream.prototype.readString = function(n) {
var strToReturn = this.peekString(n);
this.ptr += n;
return strToReturn;
};
/**
* A write-only Byte buffer which uses a Uint8 Typed Array as a backing store.
* @param {number} numBytes The number of bytes to allocate.
* @constructor
*/
bitjs.io.ByteBuffer = function(numBytes) {
if (typeof numBytes != typeof 1 || numBytes <= 0) {
throw "Error! ByteBuffer initialized with '" + numBytes + "'";
}
this.data = new Uint8Array(numBytes);
this.ptr = 0;
};
/**
* @param {number} b The byte to insert.
*/
bitjs.io.ByteBuffer.prototype.insertByte = function(b) {
// TODO: throw if byte is invalid?
this.data[this.ptr++] = b;
};
/**
* @param {Array.<number>|Uint8Array|Int8Array} bytes The bytes to insert.
*/
bitjs.io.ByteBuffer.prototype.insertBytes = function(bytes) {
// TODO: throw if bytes is invalid?
this.data.set(bytes, this.ptr);
this.ptr += bytes.length;
};
/**
* Writes an unsigned number into the next n bytes. If the number is too large
* to fit into n bytes or is negative, an error is thrown.
* @param {number} num The unsigned number to write.
* @param {number} numBytes The number of bytes to write the number into.
*/
bitjs.io.ByteBuffer.prototype.writeNumber = function(num, numBytes) {
if (numBytes < 1) {
throw 'Trying to write into too few bytes: ' + numBytes;
}
if (num < 0) {
throw 'Trying to write a negative number (' + num +
') as an unsigned number to an ArrayBuffer';
}
if (num > (Math.pow(2, numBytes * 8) - 1)) {
throw 'Trying to write ' + num + ' into only ' + numBytes + ' bytes';
}
// Roll 8-bits at a time into an array of bytes.
var bytes = [];
while (numBytes-- > 0) {
var eightBits = num & 255;
bytes.push(eightBits);
num >>= 8;
}
this.insertBytes(bytes);
};
/**
* Writes a signed number into the next n bytes. If the number is too large
* to fit into n bytes, an error is thrown.
* @param {number} num The signed number to write.
* @param {number} numBytes The number of bytes to write the number into.
*/
bitjs.io.ByteBuffer.prototype.writeSignedNumber = function(num, numBytes) {
if (numBytes < 1) {
throw 'Trying to write into too few bytes: ' + numBytes;
}
var HALF = Math.pow(2, (numBytes * 8) - 1);
if (num >= HALF || num < -HALF) {
throw 'Trying to write ' + num + ' into only ' + numBytes + ' bytes';
}
// Roll 8-bits at a time into an array of bytes.
var bytes = [];
while (numBytes-- > 0) {
var eightBits = num & 255;
bytes.push(eightBits);
num >>= 8;
}
this.insertBytes(bytes);
};
/**
* @param {string} str The ASCII string to write.
*/
bitjs.io.ByteBuffer.prototype.writeASCIIString = function(str) {
for (var i = 0; i < str.length; ++i) {
var curByte = str.charCodeAt(i);
if (curByte < 0 || curByte > 255) {
throw 'Trying to write a non-ASCII string!';
}
this.insertByte(curByte);
}
};
})();

630
cps/static/js/kthoom.js
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/*
* kthoom.js
*
* Licensed under the MIT License
*
* Copyright(c) 2011 Google Inc.
* Copyright(c) 2011 antimatter15
*/
/* Reference Documentation:
* Web Workers: http://www.whatwg.org/specs/web-workers/current-work/
* Web Workers in Mozilla: https://developer.mozilla.org/En/Using_web_workers
* File API (FileReader): http://www.w3.org/TR/FileAPI/
* Typed Arrays: http://www.khronos.org/registry/typedarray/specs/latest/#6
*/
if (!window.console) {
window.console = {};
window.console.log = function(str) {};
window.console.dir = function(str) {};
}
if (window.opera) {
window.console.log = function(str) {opera.postError(str);};
window.console.dir = function(str) {};
}
// gets the element with the given id
function getElem(id) {
if (document.documentElement.querySelector) {
// querySelector lookup
return document.body.querySelector('#' + id);
}
// getElementById lookup
return document.getElementById(id);
}
if (window.kthoom == undefined) {
window.kthoom = {};
}
// key codes
kthoom.Key = {
ESCAPE: 27,
LEFT: 37,
UP: 38,
RIGHT: 39,
DOWN: 40,
A: 65, B: 66, C: 67, D: 68, E: 69, F: 70, G: 71, H: 72, I: 73, J: 74, K: 75, L: 76, M: 77,
N: 78, O: 79, P: 80, Q: 81, R: 82, S: 83, T: 84, U: 85, V: 86, W: 87, X: 88, Y: 89, Z: 90,
QUESTION_MARK: 191,
LEFT_SQUARE_BRACKET: 219,
RIGHT_SQUARE_BRACKET: 221
};
// The rotation orientation of the comic.
kthoom.rotateTimes = 0;
// global variables
var unarchiver = null;
var currentImage = 0;
var imageFiles = [];
var imageFilenames = [];
var totalImages = 0;
var lastCompletion = 0;
var library = {
allBooks: [],
currentBookNum: 0,
};
var hflip = false, vflip = false, fitMode = kthoom.Key.B;
var canKeyNext = true, canKeyPrev = true;
kthoom.saveSettings = function() {
localStorage.kthoom_settings = JSON.stringify({
rotateTimes: kthoom.rotateTimes,
hflip: hflip,
vflip: vflip,
fitMode: fitMode
});
}
kthoom.loadSettings = function() {
try {
if (localStorage.kthoom_settings.length < 10) return;
var s = JSON.parse(localStorage.kthoom_settings);
kthoom.rotateTimes = s.rotateTimes;
hflip = s.hflip;
vflip = s.vflip;
fitMode = s.fitMode;
} catch(err) {
}
}
// Stores an image filename and its data: URI.
// TODO: investigate if we really need to store as base64 (leave off ;base64 and just
// non-safe URL characters are encoded as %xx ?)
// This would save 25% on memory since base64-encoded strings are 4/3 the size of the binary
kthoom.ImageFile = function(file) {
this.filename = file.filename;
var fileExtension = file.filename.split('.').pop().toLowerCase();
var mimeType = fileExtension == 'png' ? 'image/png' :
(fileExtension == 'jpg' || fileExtension == 'jpeg') ? 'image/jpeg' :
fileExtension == 'gif' ? 'image/gif' : undefined;
this.dataURI = createURLFromArray(file.fileData, mimeType);
this.data = file;
};
kthoom.initProgressMeter = function() {
var svgns = 'http://www.w3.org/2000/svg';
var pdiv = document.getElementById('progress');
var svg = document.createElementNS(svgns, 'svg');
svg.style.width = '100%';
svg.style.height = '100%';
var defs = document.createElementNS(svgns, 'defs');
var patt = document.createElementNS(svgns, 'pattern');
patt.id = 'progress_pattern';
patt.setAttribute('width', '30');
patt.setAttribute('height', '20');
patt.setAttribute('patternUnits', 'userSpaceOnUse');
var rect = document.createElementNS(svgns, 'rect');
rect.setAttribute('width', '100%');
rect.setAttribute('height', '100%');
rect.setAttribute('fill', '#cc2929');
var poly = document.createElementNS(svgns, 'polygon');
poly.setAttribute('fill', 'yellow');
poly.setAttribute('points', '15,0 30,0 15,20 0,20');
patt.appendChild(rect);
patt.appendChild(poly);
defs.appendChild(patt);
svg.appendChild(defs);
var g = document.createElementNS(svgns, 'g');
var outline = document.createElementNS(svgns, 'rect');
outline.setAttribute('y', '1');
outline.setAttribute('width', '100%');
outline.setAttribute('height', '15');
outline.setAttribute('fill', '#777');
outline.setAttribute('stroke', 'white');
outline.setAttribute('rx', '5');
outline.setAttribute('ry', '5');
g.appendChild(outline);
var title = document.createElementNS(svgns, 'text');
title.id = 'progress_title';
title.appendChild(document.createTextNode('0%'));
title.setAttribute('y', '13');
title.setAttribute('x', '99.5%');
title.setAttribute('fill', 'white');
title.setAttribute('font-size', '12px');
title.setAttribute('text-anchor', 'end');
g.appendChild(title);
var meter = document.createElementNS(svgns, 'rect');
meter.id = 'meter';
meter.setAttribute('width', '0%');
meter.setAttribute('height', '17');
meter.setAttribute('fill', 'url(#progress_pattern)');
meter.setAttribute('rx', '5');
meter.setAttribute('ry', '5');
var meter2 = document.createElementNS(svgns, 'rect');
meter2.id = 'meter2';
meter2.setAttribute('width', '0%');
meter2.setAttribute('height', '17');
meter2.setAttribute('opacity', '0.8');
meter2.setAttribute('fill', '#007fff');
meter2.setAttribute('rx', '5');
meter2.setAttribute('ry', '5');
g.appendChild(meter);
g.appendChild(meter2);
var page = document.createElementNS(svgns, 'text');
page.id = 'page';
page.appendChild(document.createTextNode('0/0'));
page.setAttribute('y', '13');
page.setAttribute('x', '0.5%');
page.setAttribute('fill', 'white');
page.setAttribute('font-size', '12px');
g.appendChild(page);
svg.appendChild(g);
pdiv.appendChild(svg);
svg.onclick = function(e) {
for (var x = pdiv, l = 0; x != document.documentElement; x = x.parentNode) l += x.offsetLeft;
var page = Math.max(1, Math.ceil(((e.clientX - l)/pdiv.offsetWidth) * totalImages)) - 1;
currentImage = page;
updatePage();
};
}
kthoom.setProgressMeter = function(pct, opt_label) {
var pct = (pct*100);
var part = 1/totalImages;
var remain = ((pct - lastCompletion)/100)/part;
var fract = Math.min(1, remain);
var smartpct = ((imageFiles.length/totalImages) + fract * part )* 100;
if (totalImages == 0) smartpct = pct;
// + Math.min((pct - lastCompletion), 100/totalImages * 0.9 + (pct - lastCompletion - 100/totalImages)/2, 100/totalImages);
var oldval = parseFloat(getElem('meter').getAttribute('width'));
if (isNaN(oldval)) oldval = 0;
var weight = 0.5;
smartpct = (weight * smartpct + (1-weight) * oldval);
if (pct == 100) smartpct = 100;
if (!isNaN(smartpct)) {
getElem('meter').setAttribute('width', smartpct + '%');
}
var title = getElem('progress_title');
while (title.firstChild) title.removeChild(title.firstChild);
var labelText = pct.toFixed(2) + '% ' + imageFiles.length + '/' + totalImages + '';
if (opt_label) {
labelText = opt_label + ' ' + labelText;
}
title.appendChild(document.createTextNode(labelText));
// fade it out as it approaches finish
//title.setAttribute('fill-opacity', (pct > 90) ? ((100-pct)*5)/100 : 1);
getElem('meter2').setAttribute('width',
100 * (totalImages == 0 ? 0 : ((currentImage+1)/totalImages)) + '%');
var title = getElem('page');
while (title.firstChild) title.removeChild(title.firstChild);
title.appendChild(document.createTextNode( (currentImage+1) + '/' + totalImages ));
if (pct > 0) {
//getElem('nav').className = '';
getElem('progress').className = '';
}
}
function loadFromArrayBuffer(ab) {
var start = (new Date).getTime();
var h = new Uint8Array(ab, 0, 10);
var pathToBitJS = '../../static/js/';
if (h[0] == 0x52 && h[1] == 0x61 && h[2] == 0x72 && h[3] == 0x21) { //Rar!
unarchiver = new bitjs.archive.Unrarrer(ab, pathToBitJS);
} else if (h[0] == 80 && h[1] == 75) { //PK (Zip)
unarchiver = new bitjs.archive.Unzipper(ab, pathToBitJS);
} else { // Try with tar
unarchiver = new bitjs.archive.Untarrer(ab, pathToBitJS);
}
// Listen for UnarchiveEvents.
if (unarchiver) {
unarchiver.addEventListener(bitjs.archive.UnarchiveEvent.Type.PROGRESS,
function(e) {
var percentage = e.currentBytesUnarchived / e.totalUncompressedBytesInArchive;
totalImages = e.totalFilesInArchive;
kthoom.setProgressMeter(percentage, 'Unzipping');
// display nav
lastCompletion = percentage * 100;
});
unarchiver.addEventListener(bitjs.archive.UnarchiveEvent.Type.EXTRACT,
function(e) {
// convert DecompressedFile into a bunch of ImageFiles
if (e.unarchivedFile) {
var f = e.unarchivedFile;
// add any new pages based on the filename
if (imageFilenames.indexOf(f.filename) == -1) {
imageFilenames.push(f.filename);
imageFiles.push(new kthoom.ImageFile(f));
}
}
// display first page if we haven't yet
if (imageFiles.length == currentImage + 1) {
updatePage();
}
});
unarchiver.addEventListener(bitjs.archive.UnarchiveEvent.Type.FINISH,
function(e) {
var diff = ((new Date).getTime() - start)/1000;
console.log('Unarchiving done in ' + diff + 's');
})
unarchiver.start();
} else {
alert('Some error');
}
}
var createURLFromArray = function(array, mimeType) {
var offset = array.byteOffset, len = array.byteLength;
var bb, url;
var blob;
// TODO: Move all this browser support testing to a common place
// and do it just once.
// Blob constructor, see http://dev.w3.org/2006/webapi/FileAPI/#dfn-Blob.
if (typeof Blob == 'function') {
blob = new Blob([array], {type: mimeType});
} else {
throw 'Browser support for Blobs is missing.'
}
if (blob.slice) {
blob = blob.slice(offset, offset + len, mimeType);
} else {
throw 'Browser support for Blobs is missing.'
}
if ((typeof URL != 'function' && typeof URL != 'object') ||
typeof URL.createObjectURL != 'function') {
throw 'Browser support for Object URLs is missing';
}
return URL.createObjectURL(blob);
}
function updatePage() {
var title = getElem('page');
while (title.firstChild) title.removeChild(title.firstChild);
title.appendChild(document.createTextNode( (currentImage+1) + '/' + totalImages ));
getElem('meter2').setAttribute('width',
100 * (totalImages == 0 ? 0 : ((currentImage+1)/totalImages)) + '%');
if (imageFiles[currentImage]) {
setImage(imageFiles[currentImage].dataURI);
} else {
setImage('loading');
}
}
function setImage(url) {
var canvas = getElem('mainImage');
var x = canvas.getContext('2d');
document.getElementById('mainText').style.display = 'none';
if (url == 'loading') {
updateScale(true);
canvas.width = innerWidth - 100;
canvas.height = 200;
x.fillStyle = 'red';
x.font = '50px sans-serif';
x.strokeStyle = 'black';
x.fillText('Loading Page #' + (currentImage + 1), 100, 100)
} else {
if (document.body.scrollHeight/innerHeight > 1) {
document.body.style.overflowY = 'scroll';
}
var img = new Image();
img.onerror = function(e) {
canvas.width = innerWidth - 100;
canvas.height = 300;
updateScale(true);
x.fillStyle = 'orange';
x.font = '50px sans-serif';
x.strokeStyle = 'black';
x.fillText('Page #' + (currentImage+1) + ' (' +
imageFiles[currentImage].filename + ')', 100, 100)
x.fillStyle = 'red';
x.fillText('Is corrupt or not an image', 100, 200);
if (/(html|htm)$/.test(imageFiles[currentImage].filename)) {
var xhr = new XMLHttpRequest();
xhr.open('GET', url, true);
xhr.onload = function() {
document.getElementById('mainText').style.display = '';
document.getElementById('mainText').innerHTML = '<iframe style="width:100%;height:700px;border:0" src="data:text/html,'+escape(xhr.responseText)+'"></iframe>';
}
xhr.send(null);
} else if (!/(jpg|jpeg|png|gif)$/.test(imageFiles[currentImage].filename) && imageFiles[currentImage].data.uncompressedSize < 10*1024) {
var xhr = new XMLHttpRequest();
xhr.open('GET', url, true);
xhr.onload = function() {
document.getElementById('mainText').style.display = '';
document.getElementById('mainText').innerText = xhr.responseText;
};
xhr.send(null);
}
};
img.onload = function() {
var h = img.height,
w = img.width,
sw = w,
sh = h;
kthoom.rotateTimes = (4 + kthoom.rotateTimes) % 4;
x.save();
if (kthoom.rotateTimes % 2 == 1) { sh = w; sw = h;}
canvas.height = sh;
canvas.width = sw;
x.translate(sw/2, sh/2);
x.rotate(Math.PI/2 * kthoom.rotateTimes);
x.translate(-w/2, -h/2);
if (vflip) {
x.scale(1, -1)
x.translate(0, -h);
}
if (hflip) {
x.scale(-1, 1)
x.translate(-w, 0);
}
canvas.style.display = 'none';
scrollTo(0,0);
x.drawImage(img, 0, 0);
updateScale();
canvas.style.display = '';
document.body.style.overflowY = '';
x.restore();
};
img.src = url;
};
}
function showPrevPage() {
currentImage--;
if (currentImage < 0) {
if (library.allBooks.length == 1) {
currentImage = imageFiles.length - 1;
} else if (library.currentBookNum > 0) {
loadPrevBook();
} else {
// Freeze on the current page.
currentImage++;
return;
}
}
updatePage();
}
function showNextPage() {
currentImage++;
if (currentImage >= Math.max(totalImages, imageFiles.length)) {
if (library.allBooks.length == 1) {
currentImage = 0;
} else if (library.currentBookNum < library.allBooks.length - 1) {
loadNextBook();
} else {
// Freeze on the current page.
currentImage--;
return;
}
}
updatePage();
}
function updateScale(clear) {
var mainImageStyle = getElem('mainImage').style;
mainImageStyle.width = '';
mainImageStyle.height = '';
mainImageStyle.maxWidth = '';
mainImageStyle.maxHeight = '';
var maxheight = innerHeight - 15;
if (!/main/.test(getElem('titlebar').className)) {
maxheight -= 25;
}
if (clear || fitMode == kthoom.Key.N) {
} else if (fitMode == kthoom.Key.B) {
mainImageStyle.maxWidth = '100%';
mainImageStyle.maxHeight = maxheight + 'px';
} else if (fitMode == kthoom.Key.H) {
mainImageStyle.height = maxheight + 'px';
} else if (fitMode == kthoom.Key.W) {
mainImageStyle.width = '100%';
}
kthoom.saveSettings();
}
function keyHandler(evt) {
var code = evt.keyCode;
// If the overlay is shown, the only keystroke we handle is closing it.
var overlayStyle = getElem('overlay').style;
var overlayShown = (overlayStyle.display != 'none');
if (overlayShown) {
if (code == kthoom.Key.QUESTION_MARK || code == kthoom.Key.ESCAPE) {
getElem('menu').classList.remove('opened');
overlayStyle.display = 'none';
}
return;
}
if (getComputedStyle(getElem('progress')).display == 'none') return;
canKeyNext = ((document.body.offsetWidth+document.body.scrollLeft)/ document.body.scrollWidth) >= 1;
canKeyPrev = (scrollX <= 0);
if (evt.ctrlKey || evt.shiftKey || evt.metaKey) return;
switch(code) {
case kthoom.Key.X:
toggleToolbar();
break;
case kthoom.Key.LEFT:
if (canKeyPrev) showPrevPage();
break;
case kthoom.Key.RIGHT:
if (canKeyNext) showNextPage();
break;
case kthoom.Key.LEFT_SQUARE_BRACKET:
if (library.currentBookNum > 0) {
loadPrevBook();
}
break;
case kthoom.Key.RIGHT_SQUARE_BRACKET:
if (library.currentBookNum < library.allBooks.length - 1) {
loadNextBook();
}
break;
case kthoom.Key.L:
kthoom.rotateTimes--;
if (kthoom.rotateTimes < 0) {
kthoom.rotateTimes = 3;
}
updatePage();
break;
case kthoom.Key.R:
kthoom.rotateTimes++;
if (kthoom.rotateTimes > 3) {
kthoom.rotateTimes = 0;
}
updatePage();
break;
case kthoom.Key.F:
if (!hflip && !vflip) {
hflip = true;
} else if(hflip == true) {
vflip = true;
hflip = false;
} else if(vflip == true) {
vflip = false;
}
updatePage();
break;
case kthoom.Key.W:
fitMode = kthoom.Key.W;
updateScale();
break;
case kthoom.Key.H:
fitMode = kthoom.Key.H;
updateScale();
break;
case kthoom.Key.B:
fitMode = kthoom.Key.B;
updateScale();
break;
case kthoom.Key.N:
fitMode = kthoom.Key.N;
updateScale();
break;
default:
//console.log('KeyCode = ' + code);
break;
}
}
function init(filename) {
if (!window.FileReader) {
alert('Sorry, kthoom will not work with your browser because it does not support the File API. Please try kthoom with Chrome 12+ or Firefox 7+');
} else {
var request = new XMLHttpRequest();
request.open("GET",filename);
request.responseType="arraybuffer";
request.setRequestHeader("X-Test","test1");
request.setRequestHeader("X-Test","test2");
request.addEventListener('load', function(event) {
if (request.status >= 200 && request.status < 300) {
loadFromArrayBuffer(request.response);
} else {
console.warn(request.statusText, request.responseText);
}
});
request.send();
kthoom.initProgressMeter();
document.body.className += /AppleWebKit/.test(navigator.userAgent) ? ' webkit' : '';
//kthoom.resetFileUploader();
kthoom.loadSettings();
document.addEventListener('keydown', keyHandler, false);
window.addEventListener('resize', function() {
var f = (screen.width - innerWidth < 4 && screen.height - innerHeight < 4);
getElem('titlebar').className = f ? 'main' : '';
updateScale();
}, false);
getElem('mainImage').addEventListener('click', function(evt) {
// Firefox does not support offsetX/Y so we have to manually calculate
// where the user clicked in the image.
var mainContentWidth = getElem('mainContent').clientWidth;
var mainContentHeight = getElem('mainContent').clientHeight;
var comicWidth = evt.target.clientWidth;
var comicHeight = evt.target.clientHeight;
var offsetX = (mainContentWidth - comicWidth) / 2;
var offsetY = (mainContentHeight - comicHeight) / 2;
var clickX = !!evt.offsetX ? evt.offsetX : (evt.clientX - offsetX);
var clickY = !!evt.offsetY ? evt.offsetY : (evt.clientY - offsetY);
// Determine if the user clicked/tapped the left side or the
// right side of the page.
var clickedPrev = false;
switch (kthoom.rotateTimes) {
case 0:
clickedPrev = clickX < (comicWidth / 2);
break;
case 1:
clickedPrev = clickY < (comicHeight / 2);
break;
case 2:
clickedPrev = clickX > (comicWidth / 2);
break;
case 3:
clickedPrev = clickY > (comicHeight / 2);
break;
}
if (clickedPrev) {
showPrevPage();
} else {
showNextPage();
}
}, false);
}
}

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/**
* unrar.js
*
* Copyright(c) 2011 Google Inc.
* Copyright(c) 2011 antimatter15
*
* Reference Documentation:
*
* http://kthoom.googlecode.com/hg/docs/unrar.html
*/
// This file expects to be invoked as a Worker (see onmessage below).
importScripts('io.js');
importScripts('archive.js');
// Progress variables.
var currentFilename = "";
var currentFileNumber = 0;
var currentBytesUnarchivedInFile = 0;
var currentBytesUnarchived = 0;
var totalUncompressedBytesInArchive = 0;
var totalFilesInArchive = 0;
// Helper functions.
var info = function(str) {
postMessage(new bitjs.archive.UnarchiveInfoEvent(str));
};
var err = function(str) {
postMessage(new bitjs.archive.UnarchiveErrorEvent(str));
};
var postProgress = function() {
postMessage(new bitjs.archive.UnarchiveProgressEvent(
currentFilename,
currentFileNumber,
currentBytesUnarchivedInFile,
currentBytesUnarchived,
totalUncompressedBytesInArchive,
totalFilesInArchive));
};
// shows a byte value as its hex representation
var nibble = "0123456789ABCDEF";
var byteValueToHexString = function(num) {
return nibble[num>>4] + nibble[num&0xF];
};
var twoByteValueToHexString = function(num) {
return nibble[(num>>12)&0xF] + nibble[(num>>8)&0xF] + nibble[(num>>4)&0xF] + nibble[num&0xF];
};
// Volume Types
var MARK_HEAD = 0x72,
MAIN_HEAD = 0x73,
FILE_HEAD = 0x74,
COMM_HEAD = 0x75,
AV_HEAD = 0x76,
SUB_HEAD = 0x77,
PROTECT_HEAD = 0x78,
SIGN_HEAD = 0x79,
NEWSUB_HEAD = 0x7a,
ENDARC_HEAD = 0x7b;
// bstream is a bit stream
var RarVolumeHeader = function(bstream) {
var headPos = bstream.bytePtr;
// byte 1,2
info("Rar Volume Header @"+bstream.bytePtr);
this.crc = bstream.readBits(16);
info(" crc=" + this.crc);
// byte 3
this.headType = bstream.readBits(8);
info(" headType=" + this.headType);
// Get flags
// bytes 4,5
this.flags = {};
this.flags.value = bstream.peekBits(16);
info(" flags=" + twoByteValueToHexString(this.flags.value));
switch (this.headType) {
case MAIN_HEAD:
this.flags.MHD_VOLUME = !!bstream.readBits(1);
this.flags.MHD_COMMENT = !!bstream.readBits(1);
this.flags.MHD_LOCK = !!bstream.readBits(1);
this.flags.MHD_SOLID = !!bstream.readBits(1);
this.flags.MHD_PACK_COMMENT = !!bstream.readBits(1);
this.flags.MHD_NEWNUMBERING = this.flags.MHD_PACK_COMMENT;
this.flags.MHD_AV = !!bstream.readBits(1);
this.flags.MHD_PROTECT = !!bstream.readBits(1);
this.flags.MHD_PASSWORD = !!bstream.readBits(1);
this.flags.MHD_FIRSTVOLUME = !!bstream.readBits(1);
this.flags.MHD_ENCRYPTVER = !!bstream.readBits(1);
bstream.readBits(6); // unused
break;
case FILE_HEAD:
this.flags.LHD_SPLIT_BEFORE = !!bstream.readBits(1); // 0x0001
this.flags.LHD_SPLIT_AFTER = !!bstream.readBits(1); // 0x0002
this.flags.LHD_PASSWORD = !!bstream.readBits(1); // 0x0004
this.flags.LHD_COMMENT = !!bstream.readBits(1); // 0x0008
this.flags.LHD_SOLID = !!bstream.readBits(1); // 0x0010
bstream.readBits(3); // unused
this.flags.LHD_LARGE = !!bstream.readBits(1); // 0x0100
this.flags.LHD_UNICODE = !!bstream.readBits(1); // 0x0200
this.flags.LHD_SALT = !!bstream.readBits(1); // 0x0400
this.flags.LHD_VERSION = !!bstream.readBits(1); // 0x0800
this.flags.LHD_EXTTIME = !!bstream.readBits(1); // 0x1000
this.flags.LHD_EXTFLAGS = !!bstream.readBits(1); // 0x2000
bstream.readBits(2); // unused
info(" LHD_SPLIT_BEFORE = " + this.flags.LHD_SPLIT_BEFORE);
break;
default:
bstream.readBits(16);
}
// byte 6,7
this.headSize = bstream.readBits(16);
info(" headSize=" + this.headSize);
switch (this.headType) {
case MAIN_HEAD:
this.highPosAv = bstream.readBits(16);
this.posAv = bstream.readBits(32);
if (this.flags.MHD_ENCRYPTVER) {
this.encryptVer = bstream.readBits(8);
}
info("Found MAIN_HEAD with highPosAv=" + this.highPosAv + ", posAv=" + this.posAv);
break;
case FILE_HEAD:
this.packSize = bstream.readBits(32);
this.unpackedSize = bstream.readBits(32);
this.hostOS = bstream.readBits(8);
this.fileCRC = bstream.readBits(32);
this.fileTime = bstream.readBits(32);
this.unpVer = bstream.readBits(8);
this.method = bstream.readBits(8);
this.nameSize = bstream.readBits(16);
this.fileAttr = bstream.readBits(32);
if (this.flags.LHD_LARGE) {
info("Warning: Reading in LHD_LARGE 64-bit size values");
this.HighPackSize = bstream.readBits(32);
this.HighUnpSize = bstream.readBits(32);
} else {
this.HighPackSize = 0;
this.HighUnpSize = 0;
if (this.unpackedSize == 0xffffffff) {
this.HighUnpSize = 0x7fffffff
this.unpackedSize = 0xffffffff;
}
}
this.fullPackSize = 0;
this.fullUnpackSize = 0;
this.fullPackSize |= this.HighPackSize;
this.fullPackSize <<= 32;
this.fullPackSize |= this.packSize;
// read in filename
this.filename = bstream.readBytes(this.nameSize);
for (var _i = 0, _s = ''; _i < this.filename.length; _i++) {
_s += String.fromCharCode(this.filename[_i]);
}
this.filename = _s;
if (this.flags.LHD_SALT) {
info("Warning: Reading in 64-bit salt value");
this.salt = bstream.readBits(64); // 8 bytes
}
if (this.flags.LHD_EXTTIME) {
// 16-bit flags
var extTimeFlags = bstream.readBits(16);
// this is adapted straight out of arcread.cpp, Archive::ReadHeader()
for (var I = 0; I < 4; ++I) {
var rmode = extTimeFlags >> ((3-I)*4);
if ((rmode & 8)==0)
continue;
if (I!=0)
bstream.readBits(16);
var count = (rmode&3);
for (var J = 0; J < count; ++J)
bstream.readBits(8);
}
}
if (this.flags.LHD_COMMENT) {
info("Found a LHD_COMMENT");
}
while(headPos + this.headSize > bstream.bytePtr) bstream.readBits(1);
info("Found FILE_HEAD with packSize=" + this.packSize + ", unpackedSize= " + this.unpackedSize + ", hostOS=" + this.hostOS + ", unpVer=" + this.unpVer + ", method=" + this.method + ", filename=" + this.filename);
break;
default:
info("Found a header of type 0x" + byteValueToHexString(this.headType));
// skip the rest of the header bytes (for now)
bstream.readBytes( this.headSize - 7 );
break;
}
};
var BLOCK_LZ = 0,
BLOCK_PPM = 1;
var rLDecode = [0,1,2,3,4,5,6,7,8,10,12,14,16,20,24,28,32,40,48,56,64,80,96,112,128,160,192,224],
rLBits = [0,0,0,0,0,0,0,0,1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5],
rDBitLengthCounts = [4,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,14,0,12],
rSDDecode = [0,4,8,16,32,64,128,192],
rSDBits = [2,2,3, 4, 5, 6, 6, 6];
var rDDecode = [0, 1, 2, 3, 4, 6, 8, 12, 16, 24, 32,
48, 64, 96, 128, 192, 256, 384, 512, 768, 1024, 1536, 2048, 3072,
4096, 6144, 8192, 12288, 16384, 24576, 32768, 49152, 65536, 98304,
131072, 196608, 262144, 327680, 393216, 458752, 524288, 589824,
655360, 720896, 786432, 851968, 917504, 983040];
var rDBits = [0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5,
5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14,
15, 15, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16];
var rLOW_DIST_REP_COUNT = 16;
var rNC = 299,
rDC = 60,
rLDC = 17,
rRC = 28,
rBC = 20,
rHUFF_TABLE_SIZE = (rNC+rDC+rRC+rLDC);
var UnpBlockType = BLOCK_LZ;
var UnpOldTable = new Array(rHUFF_TABLE_SIZE);
var BD = { //bitdecode
DecodeLen: new Array(16),
DecodePos: new Array(16),
DecodeNum: new Array(rBC)
};
var LD = { //litdecode
DecodeLen: new Array(16),
DecodePos: new Array(16),
DecodeNum: new Array(rNC)
};
var DD = { //distdecode
DecodeLen: new Array(16),
DecodePos: new Array(16),
DecodeNum: new Array(rDC)
};
var LDD = { //low dist decode
DecodeLen: new Array(16),
DecodePos: new Array(16),
DecodeNum: new Array(rLDC)
};
var RD = { //rep decode
DecodeLen: new Array(16),
DecodePos: new Array(16),
DecodeNum: new Array(rRC)
};
var rBuffer;
// read in Huffman tables for RAR
function RarReadTables(bstream) {
var BitLength = new Array(rBC),
Table = new Array(rHUFF_TABLE_SIZE);
// before we start anything we need to get byte-aligned
bstream.readBits( (8 - bstream.bitPtr) & 0x7 );
if (bstream.readBits(1)) {
info("Error! PPM not implemented yet");
return;
}
if (!bstream.readBits(1)) { //discard old table
for (var i = UnpOldTable.length; i--;) UnpOldTable[i] = 0;
}
// read in bit lengths
for (var I = 0; I < rBC; ++I) {
var Length = bstream.readBits(4);
if (Length == 15) {
var ZeroCount = bstream.readBits(4);
if (ZeroCount == 0) {
BitLength[I] = 15;
}
else {
ZeroCount += 2;
while (ZeroCount-- > 0 && I < rBC)
BitLength[I++] = 0;
--I;
}
}
else {
BitLength[I] = Length;
}
}
// now all 20 bit lengths are obtained, we construct the Huffman Table:
RarMakeDecodeTables(BitLength, 0, BD, rBC);
var TableSize = rHUFF_TABLE_SIZE;
//console.log(DecodeLen, DecodePos, DecodeNum);
for (var i = 0; i < TableSize;) {
var num = RarDecodeNumber(bstream, BD);
if (num < 16) {
Table[i] = (num + UnpOldTable[i]) & 0xf;
i++;
} else if(num < 18) {
var N = (num == 16) ? (bstream.readBits(3) + 3) : (bstream.readBits(7) + 11);
while (N-- > 0 && i < TableSize) {
Table[i] = Table[i - 1];
i++;
}
} else {
var N = (num == 18) ? (bstream.readBits(3) + 3) : (bstream.readBits(7) + 11);
while (N-- > 0 && i < TableSize) {
Table[i++] = 0;
}
}
}
RarMakeDecodeTables(Table, 0, LD, rNC);
RarMakeDecodeTables(Table, rNC, DD, rDC);
RarMakeDecodeTables(Table, rNC + rDC, LDD, rLDC);
RarMakeDecodeTables(Table, rNC + rDC + rLDC, RD, rRC);
for (var i = UnpOldTable.length; i--;) {
UnpOldTable[i] = Table[i];
}
return true;
}
function RarDecodeNumber(bstream, dec) {
var DecodeLen = dec.DecodeLen, DecodePos = dec.DecodePos, DecodeNum = dec.DecodeNum;
var bitField = bstream.getBits() & 0xfffe;
//some sort of rolled out binary search
var bits = ((bitField < DecodeLen[8])?
((bitField < DecodeLen[4])?
((bitField < DecodeLen[2])?
((bitField < DecodeLen[1])?1:2)
:((bitField < DecodeLen[3])?3:4))
:(bitField < DecodeLen[6])?
((bitField < DecodeLen[5])?5:6)
:((bitField < DecodeLen[7])?7:8))
:((bitField < DecodeLen[12])?
((bitField < DecodeLen[10])?
((bitField < DecodeLen[9])?9:10)
:((bitField < DecodeLen[11])?11:12))
:(bitField < DecodeLen[14])?
((bitField < DecodeLen[13])?13:14)
:15));
bstream.readBits(bits);
var N = DecodePos[bits] + ((bitField - DecodeLen[bits -1]) >>> (16 - bits));
return DecodeNum[N];
}
function RarMakeDecodeTables(BitLength, offset, dec, size) {
var DecodeLen = dec.DecodeLen, DecodePos = dec.DecodePos, DecodeNum = dec.DecodeNum;
var LenCount = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0],
TmpPos = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0],
N = 0, M = 0;
for (var i = DecodeNum.length; i--;) DecodeNum[i] = 0;
for (var i = 0; i < size; i++) {
LenCount[BitLength[i + offset] & 0xF]++;
}
LenCount[0] = 0;
TmpPos[0] = 0;
DecodePos[0] = 0;
DecodeLen[0] = 0;
for (var I = 1; I < 16; ++I) {
N = 2 * (N+LenCount[I]);
M = (N << (15-I));
if (M > 0xFFFF)
M = 0xFFFF;
DecodeLen[I] = M;
DecodePos[I] = DecodePos[I-1] + LenCount[I-1];
TmpPos[I] = DecodePos[I];
}
for (I = 0; I < size; ++I)
if (BitLength[I + offset] != 0)
DecodeNum[ TmpPos[ BitLength[offset + I] & 0xF ]++] = I;
}
// TODO: implement
function Unpack15(bstream, Solid) {
info("ERROR! RAR 1.5 compression not supported");
}
function Unpack20(bstream, Solid) {
var destUnpSize = rBuffer.data.length;
var oldDistPtr = 0;
RarReadTables20(bstream);
while (destUnpSize > rBuffer.ptr) {
var num = RarDecodeNumber(bstream, LD);
if (num < 256) {
rBuffer.insertByte(num);
continue;
}
if (num > 269) {
var Length = rLDecode[num -= 270] + 3;
if ((Bits = rLBits[num]) > 0) {
Length += bstream.readBits(Bits);
}
var DistNumber = RarDecodeNumber(bstream, DD);
var Distance = rDDecode[DistNumber] + 1;
if ((Bits = rDBits[DistNumber]) > 0) {
Distance += bstream.readBits(Bits);
}
if (Distance >= 0x2000) {
Length++;
if(Distance >= 0x40000) Length++;
}
lastLength = Length;
lastDist = rOldDist[oldDistPtr++ & 3] = Distance;
RarCopyString(Length, Distance);
continue;
}
if (num == 269) {
RarReadTables20(bstream);
RarUpdateProgress()
continue;
}
if (num == 256) {
lastDist = rOldDist[oldDistPtr++ & 3] = lastDist;
RarCopyString(lastLength, lastDist);
continue;
}
if (num < 261) {
var Distance = rOldDist[(oldDistPtr - (num - 256)) & 3];
var LengthNumber = RarDecodeNumber(bstream, RD);
var Length = rLDecode[LengthNumber] +2;
if ((Bits = rLBits[LengthNumber]) > 0) {
Length += bstream.readBits(Bits);
}
if (Distance >= 0x101) {
Length++;
if (Distance >= 0x2000) {
Length++
if (Distance >= 0x40000) Length++;
}
}
lastLength = Length;
lastDist = rOldDist[oldDistPtr++ & 3] = Distance;
RarCopyString(Length, Distance);
continue;
}
if (num < 270) {
var Distance = rSDDecode[num -= 261] + 1;
if ((Bits = rSDBits[num]) > 0) {
Distance += bstream.readBits(Bits);
}
lastLength = 2;
lastDist = rOldDist[oldDistPtr++ & 3] = Distance;
RarCopyString(2, Distance);
continue;
}
}
RarUpdateProgress()
}
function RarUpdateProgress() {
var change = rBuffer.ptr - currentBytesUnarchivedInFile;
currentBytesUnarchivedInFile = rBuffer.ptr;
currentBytesUnarchived += change;
postProgress();
}
var rNC20 = 298,
rDC20 = 48,
rRC20 = 28,
rBC20 = 19,
rMC20 = 257;
var UnpOldTable20 = new Array(rMC20 * 4);
function RarReadTables20(bstream) {
var BitLength = new Array(rBC20);
var Table = new Array(rMC20 * 4);
var TableSize, N, I;
var AudioBlock = bstream.readBits(1);
if (!bstream.readBits(1))
for (var i = UnpOldTable20.length; i--;) UnpOldTable20[i] = 0;
TableSize = rNC20 + rDC20 + rRC20;
for (var I = 0; I < rBC20; I++)
BitLength[I] = bstream.readBits(4);
RarMakeDecodeTables(BitLength, 0, BD, rBC20);
I = 0;
while (I < TableSize) {
var num = RarDecodeNumber(bstream, BD);
if (num < 16) {
Table[I] = num + UnpOldTable20[I] & 0xf;
I++;
} else if(num == 16) {
N = bstream.readBits(2) + 3;
while (N-- > 0 && I < TableSize) {
Table[I] = Table[I - 1];
I++;
}
} else {
if (num == 17) {
N = bstream.readBits(3) + 3;
} else {
N = bstream.readBits(7) + 11;
}
while (N-- > 0 && I < TableSize) {
Table[I++] = 0;
}
}
}
RarMakeDecodeTables(Table, 0, LD, rNC20);
RarMakeDecodeTables(Table, rNC20, DD, rDC20);
RarMakeDecodeTables(Table, rNC20 + rDC20, RD, rRC20);
for (var i = UnpOldTable20.length; i--;) UnpOldTable20[i] = Table[i];
}
var lowDistRepCount = 0, prevLowDist = 0;
var rOldDist = [0,0,0,0];
var lastDist;
var lastLength;
function Unpack29(bstream, Solid) {
// lazy initialize rDDecode and rDBits
var DDecode = new Array(rDC);
var DBits = new Array(rDC);
var Dist=0,BitLength=0,Slot=0;
for (var I = 0; I < rDBitLengthCounts.length; I++,BitLength++) {
for (var J = 0; J < rDBitLengthCounts[I]; J++,Slot++,Dist+=(1<<BitLength)) {
DDecode[Slot]=Dist;
DBits[Slot]=BitLength;
}
}
var Bits;
//tablesRead = false;
rOldDist = [0,0,0,0]
lastDist = 0;
lastLength = 0;
for (var i = UnpOldTable.length; i--;) UnpOldTable[i] = 0;
// read in Huffman tables
RarReadTables(bstream);
while (true) {
var num = RarDecodeNumber(bstream, LD);
if (num < 256) {
rBuffer.insertByte(num);
continue;
}
if (num >= 271) {
var Length = rLDecode[num -= 271] + 3;
if ((Bits = rLBits[num]) > 0) {
Length += bstream.readBits(Bits);
}
var DistNumber = RarDecodeNumber(bstream, DD);
var Distance = DDecode[DistNumber]+1;
if ((Bits = DBits[DistNumber]) > 0) {
if (DistNumber > 9) {
if (Bits > 4) {
Distance += ((bstream.getBits() >>> (20 - Bits)) << 4);
bstream.readBits(Bits - 4);
//todo: check this
}
if (lowDistRepCount > 0) {
lowDistRepCount--;
Distance += prevLowDist;
} else {
var LowDist = RarDecodeNumber(bstream, LDD);
if (LowDist == 16) {
lowDistRepCount = rLOW_DIST_REP_COUNT - 1;
Distance += prevLowDist;
} else {
Distance += LowDist;
prevLowDist = LowDist;
}
}
} else {
Distance += bstream.readBits(Bits);
}
}
if (Distance >= 0x2000) {
Length++;
if (Distance >= 0x40000) {
Length++;
}
}
RarInsertOldDist(Distance);
RarInsertLastMatch(Length, Distance);
RarCopyString(Length, Distance);
continue;
}
if (num == 256) {
if (!RarReadEndOfBlock(bstream)) break;
continue;
}
if (num == 257) {
//console.log("READVMCODE");
if (!RarReadVMCode(bstream)) break;
continue;
}
if (num == 258) {
if (lastLength != 0) {
RarCopyString(lastLength, lastDist);
}
continue;
}
if (num < 263) {
var DistNum = num - 259;
var Distance = rOldDist[DistNum];
for (var I = DistNum; I > 0; I--) {
rOldDist[I] = rOldDist[I-1];
}
rOldDist[0] = Distance;
var LengthNumber = RarDecodeNumber(bstream, RD);
var Length = rLDecode[LengthNumber] + 2;
if ((Bits = rLBits[LengthNumber]) > 0) {
Length += bstream.readBits(Bits);
}
RarInsertLastMatch(Length, Distance);
RarCopyString(Length, Distance);
continue;
}
if (num < 272) {
var Distance = rSDDecode[num -= 263] + 1;
if ((Bits = rSDBits[num]) > 0) {
Distance += bstream.readBits(Bits);
}
RarInsertOldDist(Distance);
RarInsertLastMatch(2, Distance);
RarCopyString(2, Distance);
continue;
}
}
RarUpdateProgress()
}
function RarReadEndOfBlock(bstream) {
RarUpdateProgress()
var NewTable = false, NewFile = false;
if (bstream.readBits(1)) {
NewTable = true;
} else {
NewFile = true;
NewTable = !!bstream.readBits(1);
}
//tablesRead = !NewTable;
return !(NewFile || NewTable && !RarReadTables(bstream));
}
function RarReadVMCode(bstream) {
var FirstByte = bstream.readBits(8);
var Length = (FirstByte & 7) + 1;
if (Length == 7) {
Length = bstream.readBits(8) + 7;
} else if(Length == 8) {
Length = bstream.readBits(16);
}
var vmCode = [];
for(var I = 0; I < Length; I++) {
//do something here with cheking readbuf
vmCode.push(bstream.readBits(8));
}
return RarAddVMCode(FirstByte, vmCode, Length);
}
function RarAddVMCode(firstByte, vmCode, length) {
//console.log(vmCode);
if (vmCode.length > 0) {
info("Error! RarVM not supported yet!");
}
return true;
}
function RarInsertLastMatch(length, distance) {
lastDist = distance;
lastLength = length;
}
function RarInsertOldDist(distance) {
rOldDist.splice(3,1);
rOldDist.splice(0,0,distance);
}
//this is the real function, the other one is for debugging
function RarCopyString(length, distance) {
var destPtr = rBuffer.ptr - distance;
if(destPtr < 0){
var l = rOldBuffers.length;
while(destPtr < 0){
destPtr = rOldBuffers[--l].data.length + destPtr;
}
//TODO: lets hope that it never needs to read beyond file boundaries
while(length--) rBuffer.insertByte(rOldBuffers[l].data[destPtr++]);
}
if (length > distance) {
while(length--) rBuffer.insertByte(rBuffer.data[destPtr++]);
} else {
rBuffer.insertBytes(rBuffer.data.subarray(destPtr, destPtr + length));
}
}
var rOldBuffers = []
// v must be a valid RarVolume
function unpack(v) {
// TODO: implement what happens when unpVer is < 15
var Ver = v.header.unpVer <= 15 ? 15 : v.header.unpVer,
Solid = v.header.LHD_SOLID,
bstream = new bitjs.io.BitStream(v.fileData.buffer, true /* rtl */, v.fileData.byteOffset, v.fileData.byteLength );
rBuffer = new bitjs.io.ByteBuffer(v.header.unpackedSize);
info("Unpacking "+v.filename+" RAR v"+Ver);
switch(Ver) {
case 15: // rar 1.5 compression
Unpack15(bstream, Solid);
break;
case 20: // rar 2.x compression
case 26: // files larger than 2GB
Unpack20(bstream, Solid);
break;
case 29: // rar 3.x compression
case 36: // alternative hash
Unpack29(bstream, Solid);
break;
} // switch(method)
rOldBuffers.push(rBuffer);
//TODO: clear these old buffers when there's over 4MB of history
return rBuffer.data;
}
// bstream is a bit stream
var RarLocalFile = function(bstream) {
this.header = new RarVolumeHeader(bstream);
this.filename = this.header.filename;
if (this.header.headType != FILE_HEAD && this.header.headType != ENDARC_HEAD) {
this.isValid = false;
info("Error! RAR Volume did not include a FILE_HEAD header ");
}
else {
// read in the compressed data
this.fileData = null;
if (this.header.packSize > 0) {
this.fileData = bstream.readBytes(this.header.packSize);
this.isValid = true;
}
}
};
RarLocalFile.prototype.unrar = function() {
if (!this.header.flags.LHD_SPLIT_BEFORE) {
// unstore file
if (this.header.method == 0x30) {
info("Unstore "+this.filename);
this.isValid = true;
currentBytesUnarchivedInFile += this.fileData.length;
currentBytesUnarchived += this.fileData.length;
// Create a new buffer and copy it over.
var len = this.header.packSize;
var newBuffer = new bitjs.io.ByteBuffer(len);
newBuffer.insertBytes(this.fileData);
this.fileData = newBuffer.data;
} else {
this.isValid = true;
this.fileData = unpack(this);
}
}
}
var unrar = function(arrayBuffer) {
currentFilename = "";
currentFileNumber = 0;
currentBytesUnarchivedInFile = 0;
currentBytesUnarchived = 0;
totalUncompressedBytesInArchive = 0;
totalFilesInArchive = 0;
postMessage(new bitjs.archive.UnarchiveStartEvent());
var bstream = new bitjs.io.BitStream(arrayBuffer, false /* rtl */);
var header = new RarVolumeHeader(bstream);
if (header.crc == 0x6152 &&
header.headType == 0x72 &&
header.flags.value == 0x1A21 &&
header.headSize == 7) {
info("Found RAR signature");
var mhead = new RarVolumeHeader(bstream);
if (mhead.headType != MAIN_HEAD) {
info("Error! RAR did not include a MAIN_HEAD header");
}
else {
var localFiles = [],
localFile = null;
do {
try {
localFile = new RarLocalFile(bstream);
info("RAR localFile isValid=" + localFile.isValid + ", volume packSize=" + localFile.header.packSize);
if (localFile && localFile.isValid && localFile.header.packSize > 0) {
totalUncompressedBytesInArchive += localFile.header.unpackedSize;
localFiles.push(localFile);
} else if (localFile.header.packSize == 0 && localFile.header.unpackedSize == 0) {
localFile.isValid = true;
}
} catch(err) {
break;
}
//info("bstream" + bstream.bytePtr+"/"+bstream.bytes.length);
} while( localFile.isValid );
totalFilesInArchive = localFiles.length;
// now we have all information but things are unpacked
// TODO: unpack
localFiles = localFiles.sort(function(a,b) {
var aname = a.filename.toLowerCase();
var bname = b.filename.toLowerCase();
return aname > bname ? 1 : -1;
});
info(localFiles.map(function(a){return a.filename}).join(', '));
for (var i = 0; i < localFiles.length; ++i) {
var localfile = localFiles[i];
// update progress
currentFilename = localfile.header.filename;
currentBytesUnarchivedInFile = 0;
// actually do the unzipping
localfile.unrar();
if (localfile.isValid) {
postMessage(new bitjs.archive.UnarchiveExtractEvent(localfile));
postProgress();
}
}
postProgress();
}
}
else {
err("Invalid RAR file");
}
postMessage(new bitjs.archive.UnarchiveFinishEvent());
};
// event.data.file has the ArrayBuffer.
onmessage = function(event) {
var ab = event.data.file;
unrar(ab, true);
};

168
cps/static/js/untar.js
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/**
* untar.js
*
* Copyright(c) 2011 Google Inc.
*
* Reference Documentation:
*
* TAR format: http://www.gnu.org/software/automake/manual/tar/Standard.html
*/
// This file expects to be invoked as a Worker (see onmessage below).
importScripts('io.js');
importScripts('archive.js');
// Progress variables.
var currentFilename = "";
var currentFileNumber = 0;
var currentBytesUnarchivedInFile = 0;
var currentBytesUnarchived = 0;
var totalUncompressedBytesInArchive = 0;
var totalFilesInArchive = 0;
// Helper functions.
var info = function(str) {
postMessage(new bitjs.archive.UnarchiveInfoEvent(str));
};
var err = function(str) {
postMessage(new bitjs.archive.UnarchiveErrorEvent(str));
};
var postProgress = function() {
postMessage(new bitjs.archive.UnarchiveProgressEvent(
currentFilename,
currentFileNumber,
currentBytesUnarchivedInFile,
currentBytesUnarchived,
totalUncompressedBytesInArchive,
totalFilesInArchive));
};
// Removes all characters from the first zero-byte in the string onwards.
var readCleanString = function(bstr, numBytes) {
var str = bstr.readString(numBytes);
var zIndex = str.indexOf(String.fromCharCode(0));
return zIndex != -1 ? str.substr(0, zIndex) : str;
};
// takes a ByteStream and parses out the local file information
var TarLocalFile = function(bstream) {
this.isValid = false;
// Read in the header block
this.name = readCleanString(bstream, 100);
this.mode = readCleanString(bstream, 8);
this.uid = readCleanString(bstream, 8);
this.gid = readCleanString(bstream, 8);
this.size = parseInt(readCleanString(bstream, 12), 8);
this.mtime = readCleanString(bstream, 12);
this.chksum = readCleanString(bstream, 8);
this.typeflag = readCleanString(bstream, 1);
this.linkname = readCleanString(bstream, 100);
this.maybeMagic = readCleanString(bstream, 6);
if (this.maybeMagic == "ustar") {
this.version = readCleanString(bstream, 2);
this.uname = readCleanString(bstream, 32);
this.gname = readCleanString(bstream, 32);
this.devmajor = readCleanString(bstream, 8);
this.devminor = readCleanString(bstream, 8);
this.prefix = readCleanString(bstream, 155);
if (this.prefix.length) {
this.name = this.prefix + this.name;
}
bstream.readBytes(12); // 512 - 500
} else {
bstream.readBytes(255); // 512 - 257
}
// Done header, now rest of blocks are the file contents.
this.filename = this.name;
this.fileData = null;
info("Untarring file '" + this.filename + "'");
info(" size = " + this.size);
info(" typeflag = " + this.typeflag);
// A regular file.
if (this.typeflag == 0) {
info(" This is a regular file.");
var sizeInBytes = parseInt(this.size);
this.fileData = new Uint8Array(bstream.bytes.buffer, bstream.ptr, this.size);
if (this.name.length > 0 && this.size > 0 && this.fileData && this.fileData.buffer) {
this.isValid = true;
}
bstream.readBytes(this.size);
// Round up to 512-byte blocks.
var remaining = 512 - this.size % 512;
if (remaining > 0 && remaining < 512) {
bstream.readBytes(remaining);
}
} else if (this.typeflag == 5) {
info(" This is a directory.")
}
};
// Takes an ArrayBuffer of a tar file in
// returns null on error
// returns an array of DecompressedFile objects on success
var untar = function(arrayBuffer) {
currentFilename = "";
currentFileNumber = 0;
currentBytesUnarchivedInFile = 0;
currentBytesUnarchived = 0;
totalUncompressedBytesInArchive = 0;
totalFilesInArchive = 0;
postMessage(new bitjs.archive.UnarchiveStartEvent());
var bstream = new bitjs.io.ByteStream(arrayBuffer);
var localFiles = [];
// While we don't encounter an empty block, keep making TarLocalFiles.
while (bstream.peekNumber(4) != 0) {
var oneLocalFile = new TarLocalFile(bstream);
if (oneLocalFile && oneLocalFile.isValid) {
localFiles.push(oneLocalFile);
totalUncompressedBytesInArchive += oneLocalFile.size;
}
}
totalFilesInArchive = localFiles.length;
// got all local files, now sort them
localFiles.sort(function(a,b) {
var aname = a.filename.toLowerCase();
var bname = b.filename.toLowerCase();
return aname > bname ? 1 : -1;
});
// report # files and total length
if (localFiles.length > 0) {
postProgress();
}
// now do the shipping of each file
for (var i = 0; i < localFiles.length; ++i) {
var localfile = localFiles[i];
info("Sending file '" + localfile.filename + "' up");
// update progress
currentFilename = localfile.filename;
currentFileNumber = i;
currentBytesUnarchivedInFile = localfile.size;
currentBytesUnarchived += localfile.size;
postMessage(new bitjs.archive.UnarchiveExtractEvent(localfile));
postProgress();
}
postProgress();
postMessage(new bitjs.archive.UnarchiveFinishEvent());
};
// event.data.file has the ArrayBuffer.
onmessage = function(event) {
var ab = event.data.file;
untar(ab);
};

617
cps/static/js/unzip.js
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/**
* unzip.js
*
* Copyright(c) 2011 Google Inc.
* Copyright(c) 2011 antimatter15
*
* Reference Documentation:
*
* ZIP format: http://www.pkware.com/documents/casestudies/APPNOTE.TXT
* DEFLATE format: http://tools.ietf.org/html/rfc1951
*/
// This file expects to be invoked as a Worker (see onmessage below).
importScripts('io.js');
importScripts('archive.js');
// Progress variables.
var currentFilename = "";
var currentFileNumber = 0;
var currentBytesUnarchivedInFile = 0;
var currentBytesUnarchived = 0;
var totalUncompressedBytesInArchive = 0;
var totalFilesInArchive = 0;
// Helper functions.
var info = function(str) {
postMessage(new bitjs.archive.UnarchiveInfoEvent(str));
};
var err = function(str) {
postMessage(new bitjs.archive.UnarchiveErrorEvent(str));
};
var postProgress = function() {
postMessage(new bitjs.archive.UnarchiveProgressEvent(
currentFilename,
currentFileNumber,
currentBytesUnarchivedInFile,
currentBytesUnarchived,
totalUncompressedBytesInArchive,
totalFilesInArchive));
};
var zLocalFileHeaderSignature = 0x04034b50;
var zArchiveExtraDataSignature = 0x08064b50;
var zCentralFileHeaderSignature = 0x02014b50;
var zDigitalSignatureSignature = 0x05054b50;
var zEndOfCentralDirSignature = 0x06064b50;
var zEndOfCentralDirLocatorSignature = 0x07064b50;
// takes a ByteStream and parses out the local file information
var ZipLocalFile = function(bstream) {
if (typeof bstream != typeof {} || !bstream.readNumber || typeof bstream.readNumber != typeof function(){}) {
return null;
}
bstream.readNumber(4); // swallow signature
this.version = bstream.readNumber(2);
this.generalPurpose = bstream.readNumber(2);
this.compressionMethod = bstream.readNumber(2);
this.lastModFileTime = bstream.readNumber(2);
this.lastModFileDate = bstream.readNumber(2);
this.crc32 = bstream.readNumber(4);
this.compressedSize = bstream.readNumber(4);
this.uncompressedSize = bstream.readNumber(4);
this.fileNameLength = bstream.readNumber(2);
this.extraFieldLength = bstream.readNumber(2);
this.filename = null;
if (this.fileNameLength > 0) {
this.filename = bstream.readString(this.fileNameLength);
}
info("Zip Local File Header:");
info(" version=" + this.version);
info(" general purpose=" + this.generalPurpose);
info(" compression method=" + this.compressionMethod);
info(" last mod file time=" + this.lastModFileTime);
info(" last mod file date=" + this.lastModFileDate);
info(" crc32=" + this.crc32);
info(" compressed size=" + this.compressedSize);
info(" uncompressed size=" + this.uncompressedSize);
info(" file name length=" + this.fileNameLength);
info(" extra field length=" + this.extraFieldLength);
info(" filename = '" + this.filename + "'");
this.extraField = null;
if (this.extraFieldLength > 0) {
this.extraField = bstream.readString(this.extraFieldLength);
info(" extra field=" + this.extraField);
}
// read in the compressed data
this.fileData = null;
if (this.compressedSize > 0) {
this.fileData = new Uint8Array(bstream.bytes.buffer, bstream.ptr, this.compressedSize);
bstream.ptr += this.compressedSize;
}
// TODO: deal with data descriptor if present (we currently assume no data descriptor!)
// "This descriptor exists only if bit 3 of the general purpose bit flag is set"
// But how do you figure out how big the file data is if you don't know the compressedSize
// from the header?!?
if ((this.generalPurpose & bitjs.BIT[3]) != 0) {
this.crc32 = bstream.readNumber(4);
this.compressedSize = bstream.readNumber(4);
this.uncompressedSize = bstream.readNumber(4);
}
};
// determine what kind of compressed data we have and decompress
ZipLocalFile.prototype.unzip = function() {
// Zip Version 1.0, no compression (store only)
if (this.compressionMethod == 0 ) {
info("ZIP v"+this.version+", store only: " + this.filename + " (" + this.compressedSize + " bytes)");
currentBytesUnarchivedInFile = this.compressedSize;
currentBytesUnarchived += this.compressedSize;
}
// version == 20, compression method == 8 (DEFLATE)
else if (this.compressionMethod == 8) {
info("ZIP v2.0, DEFLATE: " + this.filename + " (" + this.compressedSize + " bytes)");
this.fileData = inflate(this.fileData, this.uncompressedSize);
}
else {
err("UNSUPPORTED VERSION/FORMAT: ZIP v" + this.version + ", compression method=" + this.compressionMethod + ": " + this.filename + " (" + this.compressedSize + " bytes)");
this.fileData = null;
}
};
// Takes an ArrayBuffer of a zip file in
// returns null on error
// returns an array of DecompressedFile objects on success
var unzip = function(arrayBuffer) {
postMessage(new bitjs.archive.UnarchiveStartEvent());
currentFilename = "";
currentFileNumber = 0;
currentBytesUnarchivedInFile = 0;
currentBytesUnarchived = 0;
totalUncompressedBytesInArchive = 0;
totalFilesInArchive = 0;
currentBytesUnarchived = 0;
var bstream = new bitjs.io.ByteStream(arrayBuffer);
// detect local file header signature or return null
if (bstream.peekNumber(4) == zLocalFileHeaderSignature) {
var localFiles = [];
// loop until we don't see any more local files
while (bstream.peekNumber(4) == zLocalFileHeaderSignature) {
var oneLocalFile = new ZipLocalFile(bstream);
// this should strip out directories/folders
if (oneLocalFile && oneLocalFile.uncompressedSize > 0 && oneLocalFile.fileData) {
localFiles.push(oneLocalFile);
totalUncompressedBytesInArchive += oneLocalFile.uncompressedSize;
}
}
totalFilesInArchive = localFiles.length;
// got all local files, now sort them
localFiles.sort(function(a,b) {
var aname = a.filename.toLowerCase();
var bname = b.filename.toLowerCase();
return aname > bname ? 1 : -1;
});
// archive extra data record
if (bstream.peekNumber(4) == zArchiveExtraDataSignature) {
info(" Found an Archive Extra Data Signature");
// skipping this record for now
bstream.readNumber(4);
var archiveExtraFieldLength = bstream.readNumber(4);
bstream.readString(archiveExtraFieldLength);
}
// central directory structure
// TODO: handle the rest of the structures (Zip64 stuff)
if (bstream.peekNumber(4) == zCentralFileHeaderSignature) {
info(" Found a Central File Header");
// read all file headers
while (bstream.peekNumber(4) == zCentralFileHeaderSignature) {
bstream.readNumber(4); // signature
bstream.readNumber(2); // version made by
bstream.readNumber(2); // version needed to extract
bstream.readNumber(2); // general purpose bit flag
bstream.readNumber(2); // compression method
bstream.readNumber(2); // last mod file time
bstream.readNumber(2); // last mod file date
bstream.readNumber(4); // crc32
bstream.readNumber(4); // compressed size
bstream.readNumber(4); // uncompressed size
var fileNameLength = bstream.readNumber(2); // file name length
var extraFieldLength = bstream.readNumber(2); // extra field length
var fileCommentLength = bstream.readNumber(2); // file comment length
bstream.readNumber(2); // disk number start
bstream.readNumber(2); // internal file attributes
bstream.readNumber(4); // external file attributes
bstream.readNumber(4); // relative offset of local header
bstream.readString(fileNameLength); // file name
bstream.readString(extraFieldLength); // extra field
bstream.readString(fileCommentLength); // file comment
}
}
// digital signature
if (bstream.peekNumber(4) == zDigitalSignatureSignature) {
info(" Found a Digital Signature");
bstream.readNumber(4);
var sizeOfSignature = bstream.readNumber(2);
bstream.readString(sizeOfSignature); // digital signature data
}
// report # files and total length
if (localFiles.length > 0) {
postProgress();
}
// now do the unzipping of each file
for (var i = 0; i < localFiles.length; ++i) {
var localfile = localFiles[i];
// update progress
currentFilename = localfile.filename;
currentFileNumber = i;
currentBytesUnarchivedInFile = 0;
// actually do the unzipping
localfile.unzip();
if (localfile.fileData != null) {
postMessage(new bitjs.archive.UnarchiveExtractEvent(localfile));
postProgress();
}
}
postProgress();
postMessage(new bitjs.archive.UnarchiveFinishEvent());
}
}
// returns a table of Huffman codes
// each entry's index is its code and its value is a JavaScript object
// containing {length: 6, symbol: X}
function getHuffmanCodes(bitLengths) {
// ensure bitLengths is an array containing at least one element
if (typeof bitLengths != typeof [] || bitLengths.length < 1) {
err("Error! getHuffmanCodes() called with an invalid array");
return null;
}
// Reference: http://tools.ietf.org/html/rfc1951#page-8
var numLengths = bitLengths.length,
bl_count = [],
MAX_BITS = 1;
// Step 1: count up how many codes of each length we have
for (var i = 0; i < numLengths; ++i) {
var length = bitLengths[i];
// test to ensure each bit length is a positive, non-zero number
if (typeof length != typeof 1 || length < 0) {
err("bitLengths contained an invalid number in getHuffmanCodes(): " + length + " of type " + (typeof length));
return null;
}
// increment the appropriate bitlength count
if (bl_count[length] == undefined) bl_count[length] = 0;
// a length of zero means this symbol is not participating in the huffman coding
if (length > 0) bl_count[length]++;
if (length > MAX_BITS) MAX_BITS = length;
}
// Step 2: Find the numerical value of the smallest code for each code length
var next_code = [],
code = 0;
for (var bits = 1; bits <= MAX_BITS; ++bits) {
var length = bits-1;
// ensure undefined lengths are zero
if (bl_count[length] == undefined) bl_count[length] = 0;
code = (code + bl_count[bits-1]) << 1;
next_code[bits] = code;
}
// Step 3: Assign numerical values to all codes
var table = {}, tableLength = 0;
for (var n = 0; n < numLengths; ++n) {
var len = bitLengths[n];
if (len != 0) {
table[next_code[len]] = { length: len, symbol: n }; //, bitstring: binaryValueToString(next_code[len],len) };
tableLength++;
next_code[len]++;
}
}
table.maxLength = tableLength;
return table;
}
/*
The Huffman codes for the two alphabets are fixed, and are not
represented explicitly in the data. The Huffman code lengths
for the literal/length alphabet are:
Lit Value Bits Codes
--------- ---- -----
0 - 143 8 00110000 through
10111111
144 - 255 9 110010000 through
111111111
256 - 279 7 0000000 through
0010111
280 - 287 8 11000000 through
11000111
*/
// fixed Huffman codes go from 7-9 bits, so we need an array whose index can hold up to 9 bits
var fixedHCtoLiteral = null;
var fixedHCtoDistance = null;
function getFixedLiteralTable() {
// create once
if (!fixedHCtoLiteral) {
var bitlengths = new Array(288);
for (var i = 0; i <= 143; ++i) bitlengths[i] = 8;
for (i = 144; i <= 255; ++i) bitlengths[i] = 9;
for (i = 256; i <= 279; ++i) bitlengths[i] = 7;
for (i = 280; i <= 287; ++i) bitlengths[i] = 8;
// get huffman code table
fixedHCtoLiteral = getHuffmanCodes(bitlengths);
}
return fixedHCtoLiteral;
}
function getFixedDistanceTable() {
// create once
if (!fixedHCtoDistance) {
var bitlengths = new Array(32);
for (var i = 0; i < 32; ++i) { bitlengths[i] = 5; }
// get huffman code table
fixedHCtoDistance = getHuffmanCodes(bitlengths);
}
return fixedHCtoDistance;
}
// extract one bit at a time until we find a matching Huffman Code
// then return that symbol
function decodeSymbol(bstream, hcTable) {
var code = 0, len = 0;
var match = false;
// loop until we match
for (;;) {
// read in next bit
var bit = bstream.readBits(1);
code = (code<<1) | bit;
++len;
// check against Huffman Code table and break if found
if (hcTable.hasOwnProperty(code) && hcTable[code].length == len) {
break;
}
if (len > hcTable.maxLength) {
err("Bit stream out of sync, didn't find a Huffman Code, length was " + len +
" and table only max code length of " + hcTable.maxLength);
break;
}
}
return hcTable[code].symbol;
}
var CodeLengthCodeOrder = [16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15];
/*
Extra Extra Extra
Code Bits Length(s) Code Bits Lengths Code Bits Length(s)
---- ---- ------ ---- ---- ------- ---- ---- -------
257 0 3 267 1 15,16 277 4 67-82
258 0 4 268 1 17,18 278 4 83-98
259 0 5 269 2 19-22 279 4 99-114
260 0 6 270 2 23-26 280 4 115-130
261 0 7 271 2 27-30 281 5 131-162
262 0 8 272 2 31-34 282 5 163-194
263 0 9 273 3 35-42 283 5 195-226
264 0 10 274 3 43-50 284 5 227-257
265 1 11,12 275 3 51-58 285 0 258
266 1 13,14 276 3 59-66
*/
var LengthLookupTable = [
[0,3], [0,4], [0,5], [0,6],
[0,7], [0,8], [0,9], [0,10],
[1,11], [1,13], [1,15], [1,17],
[2,19], [2,23], [2,27], [2,31],
[3,35], [3,43], [3,51], [3,59],
[4,67], [4,83], [4,99], [4,115],
[5,131], [5,163], [5,195], [5,227],
[0,258]
];
/*
Extra Extra Extra
Code Bits Dist Code Bits Dist Code Bits Distance
---- ---- ---- ---- ---- ------ ---- ---- --------
0 0 1 10 4 33-48 20 9 1025-1536
1 0 2 11 4 49-64 21 9 1537-2048
2 0 3 12 5 65-96 22 10 2049-3072
3 0 4 13 5 97-128 23 10 3073-4096
4 1 5,6 14 6 129-192 24 11 4097-6144
5 1 7,8 15 6 193-256 25 11 6145-8192
6 2 9-12 16 7 257-384 26 12 8193-12288
7 2 13-16 17 7 385-512 27 12 12289-16384
8 3 17-24 18 8 513-768 28 13 16385-24576
9 3 25-32 19 8 769-1024 29 13 24577-32768
*/
var DistLookupTable = [
[0,1], [0,2], [0,3], [0,4],
[1,5], [1,7],
[2,9], [2,13],
[3,17], [3,25],
[4,33], [4,49],
[5,65], [5,97],
[6,129], [6,193],
[7,257], [7,385],
[8,513], [8,769],
[9,1025], [9,1537],
[10,2049], [10,3073],
[11,4097], [11,6145],
[12,8193], [12,12289],
[13,16385], [13,24577]
];
function inflateBlockData(bstream, hcLiteralTable, hcDistanceTable, buffer) {
/*
loop (until end of block code recognized)
decode literal/length value from input stream
if value < 256
copy value (literal byte) to output stream
otherwise
if value = end of block (256)
break from loop
otherwise (value = 257..285)
decode distance from input stream
move backwards distance bytes in the output
stream, and copy length bytes from this
position to the output stream.
*/
var numSymbols = 0, blockSize = 0;
for (;;) {
var symbol = decodeSymbol(bstream, hcLiteralTable);
++numSymbols;
if (symbol < 256) {
// copy literal byte to output
buffer.insertByte(symbol);
blockSize++;
}
else {
// end of block reached
if (symbol == 256) {
break;
}
else {
var lengthLookup = LengthLookupTable[symbol-257],
length = lengthLookup[1] + bstream.readBits(lengthLookup[0]),
distLookup = DistLookupTable[decodeSymbol(bstream, hcDistanceTable)],
distance = distLookup[1] + bstream.readBits(distLookup[0]);
// now apply length and distance appropriately and copy to output
// TODO: check that backward distance < data.length?
// http://tools.ietf.org/html/rfc1951#page-11
// "Note also that the referenced string may overlap the current
// position; for example, if the last 2 bytes decoded have values
// X and Y, a string reference with <length = 5, distance = 2>
// adds X,Y,X,Y,X to the output stream."
//
// loop for each character
var ch = buffer.ptr - distance;
blockSize += length;
if(length > distance) {
var data = buffer.data;
while (length--) {
buffer.insertByte(data[ch++]);
}
} else {
buffer.insertBytes(buffer.data.subarray(ch, ch + length))
}
} // length-distance pair
} // length-distance pair or end-of-block
} // loop until we reach end of block
return blockSize;
}
// {Uint8Array} compressedData A Uint8Array of the compressed file data.
// compression method 8
// deflate: http://tools.ietf.org/html/rfc1951
function inflate(compressedData, numDecompressedBytes) {
// Bit stream representing the compressed data.
var bstream = new bitjs.io.BitStream(compressedData.buffer,
false /* rtl */,
compressedData.byteOffset,
compressedData.byteLength);
var buffer = new bitjs.io.ByteBuffer(numDecompressedBytes);
var numBlocks = 0, blockSize = 0;
// block format: http://tools.ietf.org/html/rfc1951#page-9
do {
var bFinal = bstream.readBits(1),
bType = bstream.readBits(2);
blockSize = 0;
++numBlocks;
// no compression
if (bType == 0) {
// skip remaining bits in this byte
while (bstream.bitPtr != 0) bstream.readBits(1);
var len = bstream.readBits(16),
nlen = bstream.readBits(16);
// TODO: check if nlen is the ones-complement of len?
if(len > 0) buffer.insertBytes(bstream.readBytes(len));
blockSize = len;
}
// fixed Huffman codes
else if(bType == 1) {
blockSize = inflateBlockData(bstream, getFixedLiteralTable(), getFixedDistanceTable(), buffer);
}
// dynamic Huffman codes
else if(bType == 2) {
var numLiteralLengthCodes = bstream.readBits(5) + 257;
var numDistanceCodes = bstream.readBits(5) + 1,
numCodeLengthCodes = bstream.readBits(4) + 4;
// populate the array of code length codes (first de-compaction)
var codeLengthsCodeLengths = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0];
for (var i = 0; i < numCodeLengthCodes; ++i) {
codeLengthsCodeLengths[ CodeLengthCodeOrder[i] ] = bstream.readBits(3);
}
// get the Huffman Codes for the code lengths
var codeLengthsCodes = getHuffmanCodes(codeLengthsCodeLengths);
// now follow this mapping
/*
0 - 15: Represent code lengths of 0 - 15
16: Copy the previous code length 3 - 6 times.
The next 2 bits indicate repeat length
(0 = 3, ... , 3 = 6)
Example: Codes 8, 16 (+2 bits 11),
16 (+2 bits 10) will expand to
12 code lengths of 8 (1 + 6 + 5)
17: Repeat a code length of 0 for 3 - 10 times.
(3 bits of length)
18: Repeat a code length of 0 for 11 - 138 times
(7 bits of length)
*/
// to generate the true code lengths of the Huffman Codes for the literal
// and distance tables together
var literalCodeLengths = [];
var prevCodeLength = 0;
while (literalCodeLengths.length < numLiteralLengthCodes + numDistanceCodes) {
var symbol = decodeSymbol(bstream, codeLengthsCodes);
if (symbol <= 15) {
literalCodeLengths.push(symbol);
prevCodeLength = symbol;
}
else if (symbol == 16) {
var repeat = bstream.readBits(2) + 3;
while (repeat--) {
literalCodeLengths.push(prevCodeLength);
}
}
else if (symbol == 17) {
var repeat = bstream.readBits(3) + 3;
while (repeat--) {
literalCodeLengths.push(0);
}
}
else if (symbol == 18) {
var repeat = bstream.readBits(7) + 11;
while (repeat--) {
literalCodeLengths.push(0);
}
}
}
// now split the distance code lengths out of the literal code array
var distanceCodeLengths = literalCodeLengths.splice(numLiteralLengthCodes, numDistanceCodes);
// now generate the true Huffman Code tables using these code lengths
var hcLiteralTable = getHuffmanCodes(literalCodeLengths),
hcDistanceTable = getHuffmanCodes(distanceCodeLengths);
blockSize = inflateBlockData(bstream, hcLiteralTable, hcDistanceTable, buffer);
}
// error
else {
err("Error! Encountered deflate block of type 3");
return null;
}
// update progress
currentBytesUnarchivedInFile += blockSize;
currentBytesUnarchived += blockSize;
postProgress();
} while (bFinal != 1);
// we are done reading blocks if the bFinal bit was set for this block
// return the buffer data bytes
return buffer.data;
}
// event.data.file has the ArrayBuffer.
onmessage = function(event) {
unzip(event.data.file, true);
};

35
cps/templates/readcbr.html
Unescape Escape View File

@ -0,0 +1,35 @@
<!DOCTYPE html>
<html>
<head>
<meta charset="utf-8">
<meta http-equiv="X-UA-Compatible" content="IE=edge,chrome=1">
<title>Comic Reader</title>
<meta name="description" content="">
<meta name="viewport" content="width=device-width, user-scalable=no">
<meta name="apple-mobile-web-app-capable" content="yes">
<link rel="stylesheet" href="{{ url_for('static', filename='css/kthoom.css') }}" type="text/css"/>
<script src="{{ url_for('static', filename='js/libs/jquery.min.js') }}"></script>
<script src="{{ url_for('static', filename='js/kthoom.js') }}"></script>
<script src="{{ url_for('static', filename='js/archive.js') }}"></script>
<script>
document.onreadystatechange = function () {
if (document.readyState == "complete") {
init("{{ url_for('static', filename=comicfile) }}");
}
};
</script>
</head>
<body>
<div class="main" id="main">
<div id="titlebar">
<div id="progress" class="hide"></div>
</div>
<div id="mainContent">
<div id="mainText" style="display:none"></div>
<canvas id="mainImage"></canvas>
</div>
<div id="prev" class="arrow" onclick="showPrevPage()"></div>
<div id="next" class="arrow" onclick="showNextPage()"></div>
</div>
</body>
</html>

16
cps/web.py
Unescape Escape View File

@ -1807,13 +1807,15 @@ def read_book(book_id, book_format):
return render_title_template('readpdf.html', pdffile=book_id, title=_(u"Read a Book"))
elif book_format.lower() == "txt":
return render_title_template('readtxt.html', txtfile=book_id, title=_(u"Read a Book"))
elif book_format.lower() == "cbr":
all_name = str(book_id) + "/" + book.data[0].name + ".cbr"
tmp_file = os.path.join(book_dir, book.data[0].name) + ".cbr"
if not os.path.exists(all_name):
cbr_file = os.path.join(config.config_calibre_dir, book.path, book.data[0].name) + ".cbr"
copyfile(cbr_file, tmp_file)
return render_title_template('readcbr.html', comicfile=all_name, title=_(u"Read a Book"))
else:
for format in ["cbr","cbt","cbz"]:
if book_format.lower() == format:
all_name = str(book_id) + "/" + book.data[0].name + "." + format
tmp_file = os.path.join(book_dir, book.data[0].name) + "." + format
if not os.path.exists(all_name):
cbr_file = os.path.join(config.config_calibre_dir, book.path, book.data[0].name) + "." + format
copyfile(cbr_file, tmp_file)
return render_title_template('readcbr.html', comicfile=all_name, title=_(u"Read a Book"))
@app.route("/download/<int:book_id>/<book_format>")

6
readme.md
Unescape Escape View File

@ -10,7 +10,7 @@ Calibre Web is a web app providing a clean interface for browsing, reading and d
- Bootstrap 3 HTML5 interface
- full graphical setup
- User management
- User management with fine grained per-user permissions
- Admin interface
- User Interface in dutch, english, french, german, italian, polish, russian, simplified chinese, spanish
- OPDS feed for eBook reader apps
@ -21,10 +21,10 @@ Calibre Web is a web app providing a clean interface for browsing, reading and d
- Restrict eBook download to logged-in users
- Support for public user registration
- Send eBooks to Kindle devices with the click of a button
- Support for reading eBooks directly in the browser (.txt, .epub, .pdf)
- Support for reading eBooks directly in the browser (.txt, .epub, .pdf, .cbr, .cbt, .cbz)
- Upload new books in PDF, epub, fb2 format
- Support for Calibre custom columns
- Fine grained per-user permissions
- Ability to hide content based on categories for certain users
- Self update capability
- "Magic Link" login to make it easy to log on eReaders

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