/** * This dictionary holds decoded fonts data. */ var Fonts = new Dict(); /** * This simple object keep a trace of the fonts that have already been decoded * by storing a map between the name given by the PDF and the name gather from * the font (aka the PostScript code of the font itself for Type1 font). */ var _Fonts = {}; var Stack = function() { var innerStack = []; this.push = function(aOperand) { innerStack.push(aOperand); }; this.pop = function() { if (!this.count()) throw new Error("stackunderflow"); return innerStack.pop(); }; this.peek = function() { if (!this.count()) return null; return innerStack[innerStack.length - 1]; }; this.get = function(aIndex) { return innerStack[aIndex]; }; this.clear = function() { innerStack = []; }; this.count = function() { return innerStack.length; }; this.dump = function() { for (var i = 0; i < this.length; i++) log(innerStack[i]); }; this.clone = function() { return innerStack.slice(); }; }; var Base64Encoder = { encode: function(aData) { var str = []; var count = aData.length; for (var i = 0; i < count; i++) str.push(aData.getChar ? aData.getChar : String.fromCharCode(aData[i])); return window.btoa(str.join("")); } }; var TrueTypeFont = function(aFontName, aFontFile) { if (_Fonts[aFontName]) return; _Fonts[aFontName] = true; //log("Loading a TrueType font: " + aFontName); var fontData = Base64Encoder.encode(aFontFile); Fonts.set(aFontName, fontData); // Add the css rule var url = "url(data:font/ttf;base64," + fontData + ");"; document.styleSheets[0].insertRule("@font-face { font-family: '" + aFontName + "'; src: " + url + " }", 0); }; var Type1Parser = function(aAsciiStream, aBinaryStream) { var lexer = aAsciiStream ? new Lexer(aAsciiStream) : null; // Turn on this flag for additional debugging logs var debug = false; var dump = function(aData) { if (debug) log(aData); }; // Hold the fontName as declared inside the /FontName postscript directive // XXX This is a hack but at the moment I need it to map the name declared // in the PDF and the name in the PS code. var fontName = ""; /* * Parse a whole Type1 font stream (from the first segment to the last) * assuming the 'eexec' block is binary data and fill up the 'Fonts' * dictionary with the font informations. */ var self = this; this.parse = function() { if (!debug) { while (!processNextToken()) {}; return fontName; } else { // debug mode is used to debug postcript processing setTimeout(function() { if (!processNextToken()) self.parse(); }, 0); } }; /* * Decrypt a Sequence of Ciphertext Bytes to Produce the Original Sequence * of Plaintext Bytes. The function took a key as a parameter which can be * for decrypting the eexec block of for decoding charStrings. */ var kEexecEncryptionKey = 55665; var kCharStringsEncryptionKey = 4330; function decrypt(aStream, aKey, aDiscardNumber) { var start = Date.now(); var r = aKey, c1 = 52845, c2 = 22719; var decryptedString = []; var value = ""; var count = aStream.length; for (var i = 0; i < count; i++) { value = aStream.getByte(); decryptedString[i] = String.fromCharCode(value ^ (r >> 8)); r = ((value + r) * c1 + c2) & ((1 << 16) - 1); } var end = Date.now(); dump("Time to decrypt string of length " + count + " is " + (end - start)); return decryptedString.slice(aDiscardNumber); }; /* * CharStrings are encoded following the the CharString Encoding sequence * describe in Chapter 6 of the "Adobe Type1 Font Format" specification. * The value in a byte indicates a command, a number, or subsequent bytes * that are to be interpreted in a special way. * * CharString Number Encoding: * A CharString byte containing the values from 32 through 255 inclusive * indicate an integer. These values are decoded in four ranges. * * 1. A CharString byte containing a value, v, between 32 and 246 inclusive, * indicate the integer v - 139. Thus, the integer values from -107 through * 107 inclusive may be encoded in single byte. * * 2. A CharString byte containing a value, v, between 247 and 250 inclusive, * indicates an integer involving the next byte, w, according to the formula: * [(v - 247) x 256] + w + 108 * * 3. A CharString byte containing a value, v, between 251 and 254 inclusive, * indicates an integer involving the next byte, w, according to the formula: * -[(v - 251) * 256] - w - 108 * * 4. A CharString containing the value 255 indicates that the next 4 bytes * are a two complement signed integer. The first of these bytes contains the * highest order bits, the second byte contains the next higher order bits * and the fourth byte contain the lowest order bits. * * * CharString Command Encoding: * CharStrings commands are encoded in 1 or 2 bytes. * * Single byte commands are encoded in 1 byte that contains a value between * 0 and 31 inclusive. * If a command byte contains the value 12, then the value in the next byte * indicates a command. This "escape" mechanism allows many extra commands * to be encoded and this encoding technique helps to minimize the length of * the charStrings. */ var charStringDictionary = { "1": "hstem", "3": "vstem", "4": "vmoveto", "5": "rlineto", "6": "hlineto", "7": "vlineto", "8": "rrcurveto", "9": "closepath", "10": "callsubr", "11": "return", "12": { "0": "dotsection", "1": "vstem3", "3": "hstem3", "6": "seac", "7": "sbw", "12": "div", "16": "callothersubr", "17": "pop", "33": "setcurrentpoint" }, "13": "hsbw", "14": "endchar", "21": "rmoveto", "22": "hmoveto", "30": "vhcurveto", "31": "hvcurveto" }; function decodeCharString(aStream) { var start = Date.now(); var charString = []; var value = ""; var count = aStream.length; for (var i = 0; i < count; i++) { value = aStream.getByte(); if (value < 32) { if (value == 12) { value = charStringDictionary["12"][aStream.getByte()]; i++; } else { value = charStringDictionary[value]; } } else if (value <= 246) { value = parseInt(value) - 139; } else if (value <= 250) { value = ((value - 247) * 256) + parseInt(aStream.getByte()) + 108; i++; } else if (value <= 254) { value = -((value - 251) * 256) - parseInt(aStream.getByte()) - 108; i++; } else { var byte = aStream.getByte(); var high = (byte >> 1); value = (byte - high) << 24 | aStream.getByte() << 16 | aStream.getByte() << 8 | aStream.getByte(); i += 4; } charString.push(value); } var end = Date.now(); dump("Time to decode charString of length " + count + " is " + (end - start)); return charString; } /* * The operand stack holds arbitrary PostScript objects that are the operands * and results of PostScript operators being executed. The interpreter pushes * objects on the operand stack when it encounters them as literal data in a * program being executed. When an operator requires one or more operands, it * obtains them by popping them off the top of the operand stack. When an * operator returns one or more results, it does so by pushing them on the * operand stack. */ var operandStack = new Stack(); // Flag indicating if the topmost operand of the operandStack is an array var operandIsArray = 0; /* * The dictionary stack holds only dictionary objects. The current set of * dictionaries on the dictionary stack defines the environment for all * implicit name searches, such as those that occur when the interpreter * encounters an executable name. The role of the dictionary stack is * introduced in Section 3.3, “Data Types and Objects,” and is further * explained in Section 3.5, “Execution.” of the PostScript Language * Reference. */ var systemDict = new Dict(), globalDict = new Dict(), userDict = new Dict(); var dictionaryStack = new Stack(); dictionaryStack.push(systemDict); dictionaryStack.push(globalDict); dictionaryStack.push(userDict); /* * The execution stack holds executable objects (mainly procedures and files) * that are in intermediate stages of execution. At any point in the * execution of a PostScript program, this stack represents the program’s * call stack. Whenever the interpreter suspends execution of an object to * execute some other object, it pushes the new object on the execution * stack. When the interpreter finishes executing an object, it pops that * object off the execution stack and resumes executing the suspended object * beneath it. */ var executionStack = new Stack(); /* * Return the next token in the execution stack */ function nextInStack() { var currentProcedure = executionStack.peek(); if (currentProcedure) { var command = currentProcedure.shift(); if (!currentProcedure.length) executionStack.pop(); return command; } return lexer.getObj(); }; /* * Get the next token from the executionStack and process it. * Actually the function does not process the third segment of a Type1 font * and end on 'closefile'. * * The method thrown an error if it encounters an unknown token. */ function processNextToken() { var obj = nextInStack(); if (operandIsArray && !IsCmd(obj, "{") && !IsCmd(obj, "[") && !IsCmd(obj, "]") && !IsCmd(obj, "}")) { dump("Adding an object: " + obj +" to array " + operandIsArray); var currentArray = operandStack.peek(); for (var i = 1; i < operandIsArray; i++) currentArray = currentArray[currentArray.length - 1]; currentArray.push(obj); } else if (IsBool(obj) || IsInt(obj) || IsNum(obj) || IsString(obj)) { dump("Value: " + obj); operandStack.push(obj); } else if (IsName(obj)) { dump("Name: " + obj.name); operandStack.push(obj.name); } else if (IsCmd(obj)) { var command = obj.cmd; dump(command); switch (command) { case "[": case "{": dump("Start" + (command == "{" ? " Executable " : " ") + "Array"); operandIsArray++; var currentArray = operandStack; for (var i = 1; i < operandIsArray; i++) if (currentArray.peek) currentArray = currentArray.peek(); else currentArray = currentArray[currentArray.length - 1]; currentArray.push([]); break; case "]": case "}": var currentArray = operandStack.peek(); for (var i = 1; i < operandIsArray; i++) currentArray = currentArray[currentArray.length - 1]; dump("End" + (command == "}" ? " Executable " : " ") + "Array: " + currentArray.join(" ")); operandIsArray--; break; case "if": var procedure = operandStack.pop(); var bool = operandStack.pop(); if (!IsBool(bool)) { dump("if: " + bool); // we need to execute things, let be dirty executionStack.push(bool); } else { dump("if ( " + bool + " ) { " + procedure + " }"); if (bool) executionStack.push(procedure); } break; case "ifelse": var procedure1 = operandStack.pop(); var procedure2 = operandStack.pop(); var bool = !!operandStack.pop(); dump("if ( " + bool + " ) { " + procedure2 + " } else { " + procedure1 + " }"); executionStack.push(bool ? procedure2 : procedure1); break; case "for": var procedure = operandStack.pop(); var limit = operandStack.pop(); var increment = operandStack.pop(); var initial = operandStack.pop(); for (var i = 0; i < limit; i += increment) { operandStack.push(i); executionStack.push(procedure.slice()); } break; case "dup": dump("duplicate: " + operandStack.peek()); operandStack.push(operandStack.peek()); break; case "mark": operandStack.push("mark"); break; case "cleartomark": var command = ""; do { command = operandStack.pop(); } while (command != "mark"); break; case "put": var data = operandStack.pop(); var indexOrKey = operandStack.pop(); var object = operandStack.pop(); dump("put " + data + " in " + object + "[" + indexOrKey + "]"); object.set ? object.set(indexOrKey, data) : object[indexOrKey] = data; break; case "pop": operandStack.pop(); break; case "exch": var operand1 = operandStack.pop(); var operand2 = operandStack.pop(); operandStack.push(operand1); operandStack.push(operand2); break; case "get": var indexOrKey = operandStack.pop(); var object = operandStack.pop(); var data = object.get ? object.get(indexOrKey) : object[indexOrKey]; dump("get " + object + "[" + indexOrKey + "]: " + data); operandStack.push(data); break; case "currentdict": var dict = dictionaryStack.peek(); operandStack.push(dict); break; case "systemdict": operandStack.push(systemDict); break; case "readonly": case "executeonly": case "noaccess": // Do nothing for the moment break; case "currentfile": operandStack.push("currentfile"); break; case "array": var size = operandStack.pop(); var array = new Array(size); operandStack.push(array); break; case "dict": var size = operandStack.pop(); var dict = new Dict(size); operandStack.push(dict); break; case "begin": dictionaryStack.push(operandStack.pop()); break; case "end": dictionaryStack.pop(); break; case "def": var value = operandStack.pop(); var key = operandStack.pop(); // XXX we don't want to do that here but for some reasons the names // are different between what is declared and the FontName directive if (key == "FontName" && Fonts.get(value)) { // The font has already be decoded, stop! return true; } dump("def: " + key + " = " + value); dictionaryStack.peek().set(key, value); break; case "definefont": var font = operandStack.pop(); var key = operandStack.pop(); dump("definefont " + font + " with key: " + key); // The key will be the identifier to recognize this font fontName = key; Fonts.set(key, font); operandStack.push(font); break; case "known": var name = operandStack.pop(); var dict = operandStack.pop(); var data = !!dict.get(name); dump("known: " + data + " :: " + name + " in dict: " + dict); operandStack.push(data); break; case "exec": executionStack.push(operandStack.pop()); break; case "eexec": // All the first segment data has been read, decrypt the second segment // and start interpreting it in order to decode it var file = operandStack.pop(); var eexecString = decrypt(aBinaryStream, kEexecEncryptionKey, 4).join(""); dump(eexecString); lexer = new Lexer(new StringStream(eexecString)); break; case "LenIV": error("LenIV: argh! we need to modify the length of discard characters for charStrings"); break; case "closefile": var file = operandStack.pop(); return true; break; case "index": var operands = []; var size = operandStack.pop(); for (var i = 0; i < size; i++) operands.push(operandStack.pop()); var newOperand = operandStack.peek(); while (operands.length) operandStack.push(operands.pop()); operandStack.push(newOperand); break; case "string": var size = operandStack.pop(); var str = (new Array(size + 1)).join(" "); operandStack.push(str); break; case "readstring": var str = operandStack.pop(); var size = str.length; var file = operandStack.pop(); // Add '1' because of the space separator, this is dirty var stream = lexer.stream.makeSubStream(lexer.stream.pos + 1, size); lexer.stream.skip(size + 1); var charString = decrypt(stream, kCharStringsEncryptionKey, 4).join(""); var charStream = new StringStream(charString); var decodedCharString = decodeCharString(charStream); dump("decodedCharString: " + decodedCharString); operandStack.push(decodedCharString); // boolean indicating if the operation is a success or not operandStack.push(true); break; case "StandardEncoding": // For some reason the value is considered as a command, maybe it is // because of the uppercase 'S' operandStack.push(obj.cmd); break; default: var command = null; if (IsCmd(obj)) { for (var i = 0; i < dictionaryStack.count(); i++) { if (command = dictionaryStack.get(i).get(obj.cmd)) { dump("found in dictionnary for " + obj.cmd + " command: " + command); executionStack.push(command.slice()); break; } } } if (!command) { log("operandStack: " + operandStack); log("dictionaryStack: " + dictionaryStack); log(obj); error("Unknow command while parsing font"); } break; } } else if (obj) { dump("unknow: " + obj); operandStack.push(obj); } else { // The End! operandStack.dump(); return true; } return false; } /* * Flatten the commands by interpreting the postscript code and replacing * every 'callsubr', 'callothersubr' by the real commands. * At the moment OtherSubrs are not fully supported and only otherSubrs 0-4 * as descrived in 'Using Subroutines' of 'Adobe Type 1 Font Format', * chapter 8. */ this.flattenCharstring = function(aCharstring, aDefaultWidth, aNominalWidth, aSubrs) { operandStack.clear(); executionStack.clear(); executionStack.push(aCharstring); var leftSidebearing = 0; var lastPoint = 0; while (true) { var obj = nextInStack(); if (IsBool(obj) || IsInt(obj) || IsNum(obj)) { dump("Value: " + obj); operandStack.push(obj); } else if (IsString(obj)) { dump("String: " + obj); switch (obj) { case "hsbw": var charWidthVector = operandStack.pop(); leftSidebearing = operandStack.pop(); if (charWidthVector != aDefaultWidth) operandStack.push(charWidthVector - aNominalWidth); break; case "setcurrentpoint": case "dotsection": case "seac": case "sbw": error(obj + " parsing is not implemented (yet)"); break; case "closepath": case "return": break; case "vstem3": case "vstem": operandStack.push("vstem"); break; case "hstem": case "hstem3": operandStack.push("hstem"); break; case "rmoveto": var dy = operandStack.pop(); var dx = operandStack.pop(); if (leftSidebearing) { dx += leftSidebearing; leftSidebearing = 0; } operandStack.push(dx); operandStack.push(dy); operandStack.push("rmoveto"); break; case "callsubr": var index = operandStack.pop(); executionStack.push(aSubrs[index].slice()); break; case "callothersubr": // XXX need to be improved var index = operandStack.pop(); var count = operandStack.pop(); var data = operandStack.pop(); if (index != 3) log("callothersubr for index: " + index); operandStack.push(3); operandStack.push("callothersubr"); break; case "endchar": operandStack.push("endchar"); return operandStack.clone(); case "pop": operandStack.pop(); break; default: operandStack.push(obj); break; } } } } }; var type1hack = false; var Type1Font = function(aFontName, aFontFile) { if (_Fonts[aFontName]) return; _Fonts[aFontName] = true; // All Type1 font program should begin with the comment %! if (aFontFile.getByte() != 0x25 || aFontFile.getByte() != 0x21) error("Invalid file header"); if (!type1hack) { type1hack = true; var start = Date.now(); var ASCIIStream = aFontFile.makeSubStream(0, aFontFile.dict.get("Length1"), aFontFile.dict); var binaryStream = aFontFile.makeSubStream(aFontFile.dict.get("Length1"), aFontFile.dict.get("Length2"), aFontFile.dict); this.parser = new Type1Parser(ASCIIStream, binaryStream); var fontName = this.parser.parse(); this.convertToOTF(fontName); var end = Date.now(); log("Time to parse font is:" + (end - start)); } }; Type1Font.prototype = { getDefaultWidths: function(aCharstrings) { var defaultWidth = 0; var defaultUsedCount = 0; var widths = {}; for (var glyph in aCharstrings.map) { var width = aCharstrings.get(glyph)[1]; var usedCount = (widths[width] || 0) + 1; if (usedCount > defaultUsedCount) { defaultUsedCount = usedCount; defaultWidth = width; } widths[width] = usedCount; } defaultWidth = parseInt(defaultWidth); var maxNegDistance = 0, maxPosDistance = 0; for (var width in widths) { var diff = width - defaultWidth; if (diff < 0 && diff < maxNegDistance) { maxNegDistance = diff; } else if (diff > 0 && diff > maxPosDistance) { maxPosDistance = diff; } } return { default: defaultWidth, nominal: defaultWidth + (maxPosDistance + maxNegDistance) / 2 }; }, createCFFIndexHeader: function(aObjects, aIsByte) { var data = []; // First 2 bytes contains the number of objects contained into this index var count = aObjects.length; var bytes = this.integerToBytes(count, 2); for (var i = 0; i < bytes.length; i++) data.push(bytes[i]); // Next byte contains the offset size use to reference object in the file // Actually we're using 0x04 to be sure to be able to store everything // without thinking of it while coding. data.push(0x04); // Add another offset after this one because we need a new offset var relativeOffset = 1; for (var i = 0; i < count + 1; i++) { var bytes = this.integerToBytes(relativeOffset, 4); for (var j = 0; j < bytes.length; j++) data.push(bytes[j]); if (aObjects[i]) relativeOffset += aObjects[i].length; } for (var i =0; i < count; i++) { for (var j = 0; j < aObjects[i].length; j++) data.push(aIsByte ? aObjects[i][j] : aObjects[i][j].charCodeAt(0)); } return data; }, integerToBytes: function(aValue, aBytesCount) { var bytes = []; for (var i = 0; i < aBytesCount; i++) bytes[i] = 0x00; do { bytes[--aBytesCount] = (aValue & 0xFF); aValue = aValue >> 8; } while (aBytesCount && aValue > 0); return bytes; }, encodeNumber: function(aValue) { var x = 0; if (aValue >= -107 && aValue <= 107) { return [aValue + 139]; } else if (aValue >= 108 && aValue <= 1131) { x = aValue - 108; return [ this.integerToBytes(x / 256 + 247, 1), x % 256 ]; } else if (aValue >= -1131 && aValue <= -108) { x = Math.abs(aValue) - 108; return [ this.integerToBytes(x / 256 + 251, 1), x % 256 ]; } else if (aValue >= -32768 && aValue <= 32767) { return [ 28, integerToBytes(aValue >> 8, 1), integerToBytes(aValue, 1) ]; } else if (aValue >= (-2147483647-1) && aValue <= 2147483647) { return [ 0xFF, integerToBytes(aValue >> 24, 1), integerToBytes(aValue >> 16, 1), integerToBytes(aValue >> 8, 1), integerToBytes(aValue, 1) ]; } else { error("Value: " + aValue + " is not allowed"); } }, convertToOTF: function(aFontName) { var font = Fonts.get(aFontName); var charstrings = font.get("CharStrings") var defaultWidths = this.getDefaultWidths(charstrings); var defaultWidth = defaultWidths.default; var nominalWidth = defaultWidths.nominal; log("defaultWidth to used: " + defaultWidth); log("nominalWidth to used: " + nominalWidth); log("Hack nonimal:" + (nominalWidth = 615)); var glyphs = {}; var subrs = font.get("Private").get("Subrs"); var parser = new Type1Parser(); for (var glyph in charstrings.map) { var charstring = charstrings.get(glyph); glyphs[glyph] = parser.flattenCharstring(charstring, defaultWidth, nominalWidth, subrs); } // Create a CFF font data var cff = new Uint8Array(20000); var currentOffset = 0; // Font header (major version, minor version, header size, offset size) var header = [0x01, 0x00, 0x04, 0x04]; currentOffset += header.length; cff.set(header); // Names Index var nameIndex = this.createCFFIndexHeader([aFontName]); cff.set(nameIndex, currentOffset); currentOffset += nameIndex.length; //Top Dict Index var topDictIndex = [ 0x00, 0x01, 0x01, 0x01, 0x2A, 248, 27, 0, // version 248, 28, 1, // Notice 248, 29, 2, // FullName 248, 30, 3, // FamilyName 248, 20, 4, // Weigth 82, 251, 98, 250, 105, 249, 72, 5, // FontBBox 248, 136, 15, // charset (offset: 500) 28, 0, 0, 16, // Encoding 28, 7, 208, 17, // CharStrings (offset: 2000) 28, 0, 55, 28, 39, 16, 18 // Private (offset: 10000) ]; cff.set(topDictIndex, currentOffset); currentOffset += topDictIndex.length; // Strings Index var stringsIndex = [ 0x00, 0x04, 0x01, 0x01, 0x05, 0x06, 0x07, 0x08, 0x31, 0x2E, 0x030, 0x35, // 1.05 0x2B, // + 0x28, // ( 0x29 // ) ]; cff.set(stringsIndex, currentOffset); currentOffset += stringsIndex.length; // Global Subrs Index var globalSubrsIndex = [ 0x00, 0x00, 0x00 ]; cff.set(globalSubrsIndex, currentOffset); currentOffset += globalSubrsIndex.length; // Fill the space between this and the charset by '1' var empty = new Array(500 - currentOffset); for (var i = 0; i < empty.length; i++) empty[i] = 0x01; cff.set(empty, currentOffset); currentOffset += empty.length; //Declare the letters var charset = [ 0x00 ]; for (var glyph in charstrings.map) { var index = CFFStrings.indexOf(glyph); var bytes = this.integerToBytes(index, 2); charset.push(bytes[0]); charset.push(bytes[1]); } cff.set(charset, currentOffset); currentOffset += charset.length; // Fill the space between this and the charstrings data by '1' var empty = new Array(2000 - currentOffset); for (var i = 0; i < empty.length; i++) empty[i] = 0x01; cff.set(empty, currentOffset); currentOffset += empty.length; var getNumFor = { "hstem": 1, "vstem": 3, "vmoveto": 4, "rlineto": 5, "hlineto": 6, "vlineto": 7, "rrcurveto": 8, "endchar": 14, "rmoveto": 21, "hmoveto": 22, "vhcurveto": 30, "hvcurveto": 31, }; // Encode the glyph and add it to the FUX var r = [[0x40, 0xEA]]; for (var glyph in glyphs) { var data = glyphs[glyph].slice(); var charstring = []; for (var i = 0; i < data.length; i++) { var c = data[i]; if (!IsNum(c)) { var token = getNumFor[c]; if (!token) error(c); charstring.push(token); } else { var bytes = this.encodeNumber(c); for (var j = 0; j < bytes.length; j++) charstring.push(bytes[j]); } } r.push(charstring); } var charStringsIndex = this.createCFFIndexHeader(r, true); cff.set(charStringsIndex.join(" ").split(" "), currentOffset); currentOffset += charStringsIndex.length; // Fill the space between this and the private dict data by '1' var empty = new Array(10000 - currentOffset); for (var i = 0; i < empty.length; i++) empty[i] = 0x01; cff.set(empty, currentOffset); currentOffset += empty.length; // Private Data var privateData = [ 248, 136, 20, 248, 251, 21, 119, 159, 248, 97, 159, 247, 87, 159, 6, 30, 10, 3, 150, 37, 255, 12, 9, 139, 12, 10, 172, 10, 172, 150, 143, 146, 150, 146, 12, 12, 247, 32, 11, 247, 10, 161, 147, 154, 150, 143, 12, 13, 139, 12, 14, 28, 0, 55, 19 ]; cff.set(privateData, currentOffset); currentOffset += privateData.length; // Dump shit at the end of the file var shit = [ 0x00, 0x01, 0x01, 0x01, 0x13, 0x5D, 0x65, 0x64, 0x5E, 0x5B, 0xAF, 0x66, 0xBA, 0xBB, 0xB1, 0xB0, 0xB9, 0xBA, 0x65, 0xB2, 0x5C, 0x1F, 0x0B ]; cff.set(shit, currentOffset); currentOffset += shit.length; log("==================== debug ===================="); log("== parse"); var file = new Uint8Array(cff, 0, currentOffset); var parser = new Type2Parser(); parser.parse(new Stream(file)); var data = []; for (var i = 0; i < currentOffset; i++) data.push(cff[i]); log("== write to file"); writeToFile(data, "/tmp/pdf.js.cff"); } };