/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */ /* Copyright 2012 Mozilla Foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* globals assert, bytesToString, CipherTransformFactory, error, info, InvalidPDFException, isArray, isCmd, isDict, isInt, isName, isRef, isStream, Lexer, Page, Parser, Promise, shadow, stringToPDFString, stringToUTF8String, warn, isString, Promise, MissingDataException, XRefParseException, Stream, ChunkedStream, createPromiseCapability */ 'use strict'; var Name = (function NameClosure() { function Name(name) { this.name = name; } Name.prototype = {}; var nameCache = {}; Name.get = function Name_get(name) { var nameValue = nameCache[name]; return (nameValue ? nameValue : (nameCache[name] = new Name(name))); }; return Name; })(); var Cmd = (function CmdClosure() { function Cmd(cmd) { this.cmd = cmd; } Cmd.prototype = {}; var cmdCache = {}; Cmd.get = function Cmd_get(cmd) { var cmdValue = cmdCache[cmd]; return (cmdValue ? cmdValue : (cmdCache[cmd] = new Cmd(cmd))); }; return Cmd; })(); var Dict = (function DictClosure() { var nonSerializable = function nonSerializableClosure() { return nonSerializable; // creating closure on some variable }; var GETALL_DICTIONARY_TYPES_WHITELIST = { 'Background': true, 'ExtGState': true, 'Halftone': true, 'Layout': true, 'Mask': true, 'Pagination': true, 'Printing': true }; function isRecursionAllowedFor(dict) { if (!isName(dict.Type)) { return true; } var dictType = dict.Type.name; return GETALL_DICTIONARY_TYPES_WHITELIST[dictType] === true; } // xref is optional function Dict(xref) { // Map should only be used internally, use functions below to access. this.map = Object.create(null); this.xref = xref; this.objId = null; this.__nonSerializable__ = nonSerializable; // disable cloning of the Dict } Dict.prototype = { assignXref: function Dict_assignXref(newXref) { this.xref = newXref; }, // automatically dereferences Ref objects get: function Dict_get(key1, key2, key3) { var value; var xref = this.xref; if (typeof (value = this.map[key1]) !== 'undefined' || key1 in this.map || typeof key2 === 'undefined') { return xref ? xref.fetchIfRef(value) : value; } if (typeof (value = this.map[key2]) !== 'undefined' || key2 in this.map || typeof key3 === 'undefined') { return xref ? xref.fetchIfRef(value) : value; } value = this.map[key3] || null; return xref ? xref.fetchIfRef(value) : value; }, // Same as get(), but returns a promise and uses fetchIfRefAsync(). getAsync: function Dict_getAsync(key1, key2, key3) { var value; var xref = this.xref; if (typeof (value = this.map[key1]) !== 'undefined' || key1 in this.map || typeof key2 === 'undefined') { if (xref) { return xref.fetchIfRefAsync(value); } return Promise.resolve(value); } if (typeof (value = this.map[key2]) !== 'undefined' || key2 in this.map || typeof key3 === 'undefined') { if (xref) { return xref.fetchIfRefAsync(value); } return Promise.resolve(value); } value = this.map[key3] || null; if (xref) { return xref.fetchIfRefAsync(value); } return Promise.resolve(value); }, // no dereferencing getRaw: function Dict_getRaw(key) { return this.map[key]; }, // creates new map and dereferences all Refs getAll: function Dict_getAll() { var all = Object.create(null); var queue = null; var key, obj; for (key in this.map) { obj = this.get(key); if (obj instanceof Dict) { if (isRecursionAllowedFor(obj)) { (queue || (queue = [])).push({target: all, key: key, obj: obj}); } else { all[key] = this.getRaw(key); } } else { all[key] = obj; } } if (!queue) { return all; } // trying to take cyclic references into the account var processed = Object.create(null); while (queue.length > 0) { var item = queue.shift(); var itemObj = item.obj; var objId = itemObj.objId; if (objId && objId in processed) { item.target[item.key] = processed[objId]; continue; } var dereferenced = Object.create(null); for (key in itemObj.map) { obj = itemObj.get(key); if (obj instanceof Dict) { if (isRecursionAllowedFor(obj)) { queue.push({target: dereferenced, key: key, obj: obj}); } else { dereferenced[key] = itemObj.getRaw(key); } } else { dereferenced[key] = obj; } } if (objId) { processed[objId] = dereferenced; } item.target[item.key] = dereferenced; } return all; }, getKeys: function Dict_getKeys() { return Object.keys(this.map); }, set: function Dict_set(key, value) { this.map[key] = value; }, has: function Dict_has(key) { return key in this.map; }, forEach: function Dict_forEach(callback) { for (var key in this.map) { callback(key, this.get(key)); } } }; Dict.empty = new Dict(null); Dict.merge = function Dict_merge(xref, dictArray) { var mergedDict = new Dict(xref); for (var i = 0, ii = dictArray.length; i < ii; i++) { var dict = dictArray[i]; if (!isDict(dict)) { continue; } for (var keyName in dict.map) { if (mergedDict.map[keyName]) { continue; } mergedDict.map[keyName] = dict.map[keyName]; } } return mergedDict; }; return Dict; })(); var Ref = (function RefClosure() { function Ref(num, gen) { this.num = num; this.gen = gen; } Ref.prototype = { toString: function Ref_toString() { // This function is hot, so we make the string as compact as possible. // |this.gen| is almost always zero, so we treat that case specially. var str = this.num + 'R'; if (this.gen !== 0) { str += this.gen; } return str; } }; return Ref; })(); // The reference is identified by number and generation. // This structure stores only one instance of the reference. var RefSet = (function RefSetClosure() { function RefSet() { this.dict = {}; } RefSet.prototype = { has: function RefSet_has(ref) { return ref.toString() in this.dict; }, put: function RefSet_put(ref) { this.dict[ref.toString()] = true; }, remove: function RefSet_remove(ref) { delete this.dict[ref.toString()]; } }; return RefSet; })(); var RefSetCache = (function RefSetCacheClosure() { function RefSetCache() { this.dict = Object.create(null); } RefSetCache.prototype = { get: function RefSetCache_get(ref) { return this.dict[ref.toString()]; }, has: function RefSetCache_has(ref) { return ref.toString() in this.dict; }, put: function RefSetCache_put(ref, obj) { this.dict[ref.toString()] = obj; }, putAlias: function RefSetCache_putAlias(ref, aliasRef) { this.dict[ref.toString()] = this.get(aliasRef); }, forEach: function RefSetCache_forEach(fn, thisArg) { for (var i in this.dict) { fn.call(thisArg, this.dict[i]); } }, clear: function RefSetCache_clear() { this.dict = Object.create(null); } }; return RefSetCache; })(); var Catalog = (function CatalogClosure() { function Catalog(pdfManager, xref) { this.pdfManager = pdfManager; this.xref = xref; this.catDict = xref.getCatalogObj(); this.fontCache = new RefSetCache(); assert(isDict(this.catDict), 'catalog object is not a dictionary'); this.pagePromises = []; } Catalog.prototype = { get metadata() { var streamRef = this.catDict.getRaw('Metadata'); if (!isRef(streamRef)) { return shadow(this, 'metadata', null); } var encryptMetadata = (!this.xref.encrypt ? false : this.xref.encrypt.encryptMetadata); var stream = this.xref.fetch(streamRef, !encryptMetadata); var metadata; if (stream && isDict(stream.dict)) { var type = stream.dict.get('Type'); var subtype = stream.dict.get('Subtype'); if (isName(type) && isName(subtype) && type.name === 'Metadata' && subtype.name === 'XML') { // XXX: This should examine the charset the XML document defines, // however since there are currently no real means to decode // arbitrary charsets, let's just hope that the author of the PDF // was reasonable enough to stick with the XML default charset, // which is UTF-8. try { metadata = stringToUTF8String(bytesToString(stream.getBytes())); } catch (e) { info('Skipping invalid metadata.'); } } } return shadow(this, 'metadata', metadata); }, get toplevelPagesDict() { var pagesObj = this.catDict.get('Pages'); assert(isDict(pagesObj), 'invalid top-level pages dictionary'); // shadow the prototype getter return shadow(this, 'toplevelPagesDict', pagesObj); }, get documentOutline() { var obj = null; try { obj = this.readDocumentOutline(); } catch (ex) { if (ex instanceof MissingDataException) { throw ex; } warn('Unable to read document outline'); } return shadow(this, 'documentOutline', obj); }, readDocumentOutline: function Catalog_readDocumentOutline() { var xref = this.xref; var obj = this.catDict.get('Outlines'); var root = { items: [] }; if (isDict(obj)) { obj = obj.getRaw('First'); var processed = new RefSet(); if (isRef(obj)) { var queue = [{obj: obj, parent: root}]; // to avoid recursion keeping track of the items // in the processed dictionary processed.put(obj); while (queue.length > 0) { var i = queue.shift(); var outlineDict = xref.fetchIfRef(i.obj); if (outlineDict === null) { continue; } if (!outlineDict.has('Title')) { error('Invalid outline item'); } var dest = outlineDict.get('A'); if (dest) { dest = dest.get('D'); } else if (outlineDict.has('Dest')) { dest = outlineDict.getRaw('Dest'); if (isName(dest)) { dest = dest.name; } } var title = outlineDict.get('Title'); var outlineItem = { dest: dest, title: stringToPDFString(title), color: outlineDict.get('C') || [0, 0, 0], count: outlineDict.get('Count'), bold: !!(outlineDict.get('F') & 2), italic: !!(outlineDict.get('F') & 1), items: [] }; i.parent.items.push(outlineItem); obj = outlineDict.getRaw('First'); if (isRef(obj) && !processed.has(obj)) { queue.push({obj: obj, parent: outlineItem}); processed.put(obj); } obj = outlineDict.getRaw('Next'); if (isRef(obj) && !processed.has(obj)) { queue.push({obj: obj, parent: i.parent}); processed.put(obj); } } } } return (root.items.length > 0 ? root.items : null); }, get numPages() { var obj = this.toplevelPagesDict.get('Count'); assert( isInt(obj), 'page count in top level pages object is not an integer' ); // shadow the prototype getter return shadow(this, 'num', obj); }, get destinations() { function fetchDestination(dest) { return isDict(dest) ? dest.get('D') : dest; } var xref = this.xref; var dests = {}, nameTreeRef, nameDictionaryRef; var obj = this.catDict.get('Names'); if (obj && obj.has('Dests')) { nameTreeRef = obj.getRaw('Dests'); } else if (this.catDict.has('Dests')) { nameDictionaryRef = this.catDict.get('Dests'); } if (nameDictionaryRef) { // reading simple destination dictionary obj = nameDictionaryRef; obj.forEach(function catalogForEach(key, value) { if (!value) { return; } dests[key] = fetchDestination(value); }); } if (nameTreeRef) { var nameTree = new NameTree(nameTreeRef, xref); var names = nameTree.getAll(); for (var name in names) { if (!names.hasOwnProperty(name)) { continue; } dests[name] = fetchDestination(names[name]); } } return shadow(this, 'destinations', dests); }, getDestination: function Catalog_getDestination(destinationId) { function fetchDestination(dest) { return isDict(dest) ? dest.get('D') : dest; } var xref = this.xref; var dest, nameTreeRef, nameDictionaryRef; var obj = this.catDict.get('Names'); if (obj && obj.has('Dests')) { nameTreeRef = obj.getRaw('Dests'); } else if (this.catDict.has('Dests')) { nameDictionaryRef = this.catDict.get('Dests'); } if (nameDictionaryRef) { // reading simple destination dictionary obj = nameDictionaryRef; obj.forEach(function catalogForEach(key, value) { if (!value) { return; } if (key === destinationId) { dest = fetchDestination(value); } }); } if (nameTreeRef) { var nameTree = new NameTree(nameTreeRef, xref); dest = fetchDestination(nameTree.get(destinationId)); } return dest; }, get attachments() { var xref = this.xref; var attachments = null, nameTreeRef; var obj = this.catDict.get('Names'); if (obj) { nameTreeRef = obj.getRaw('EmbeddedFiles'); } if (nameTreeRef) { var nameTree = new NameTree(nameTreeRef, xref); var names = nameTree.getAll(); for (var name in names) { if (!names.hasOwnProperty(name)) { continue; } var fs = new FileSpec(names[name], xref); if (!attachments) { attachments = {}; } attachments[stringToPDFString(name)] = fs.serializable; } } return shadow(this, 'attachments', attachments); }, get javaScript() { var xref = this.xref; var obj = this.catDict.get('Names'); var javaScript = []; if (obj && obj.has('JavaScript')) { var nameTree = new NameTree(obj.getRaw('JavaScript'), xref); var names = nameTree.getAll(); for (var name in names) { if (!names.hasOwnProperty(name)) { continue; } // We don't really use the JavaScript right now. This code is // defensive so we don't cause errors on document load. var jsDict = names[name]; if (!isDict(jsDict)) { continue; } var type = jsDict.get('S'); if (!isName(type) || type.name !== 'JavaScript') { continue; } var js = jsDict.get('JS'); if (!isString(js) && !isStream(js)) { continue; } if (isStream(js)) { js = bytesToString(js.getBytes()); } javaScript.push(stringToPDFString(js)); } } // Append OpenAction actions to javaScript array var openactionDict = this.catDict.get('OpenAction'); if (isDict(openactionDict)) { var objType = openactionDict.get('Type'); var actionType = openactionDict.get('S'); var action = openactionDict.get('N'); var isPrintAction = (isName(objType) && objType.name === 'Action' && isName(actionType) && actionType.name === 'Named' && isName(action) && action.name === 'Print'); if (isPrintAction) { javaScript.push('print(true);'); } } return shadow(this, 'javaScript', javaScript); }, cleanup: function Catalog_cleanup() { var promises = []; this.fontCache.forEach(function (promise) { promises.push(promise); }); return Promise.all(promises).then(function (translatedFonts) { for (var i = 0, ii = translatedFonts.length; i < ii; i++) { var font = translatedFonts[i].dict; delete font.translated; } this.fontCache.clear(); }.bind(this)); }, getPage: function Catalog_getPage(pageIndex) { if (!(pageIndex in this.pagePromises)) { this.pagePromises[pageIndex] = this.getPageDict(pageIndex).then( function (a) { var dict = a[0]; var ref = a[1]; return new Page(this.pdfManager, this.xref, pageIndex, dict, ref, this.fontCache); }.bind(this) ); } return this.pagePromises[pageIndex]; }, getPageDict: function Catalog_getPageDict(pageIndex) { var capability = createPromiseCapability(); var nodesToVisit = [this.catDict.getRaw('Pages')]; var currentPageIndex = 0; var xref = this.xref; var checkAllKids = false; function next() { while (nodesToVisit.length) { var currentNode = nodesToVisit.pop(); if (isRef(currentNode)) { xref.fetchAsync(currentNode).then(function (obj) { if (isDict(obj, 'Page') || (isDict(obj) && !obj.has('Kids'))) { if (pageIndex === currentPageIndex) { capability.resolve([obj, currentNode]); } else { currentPageIndex++; next(); } return; } nodesToVisit.push(obj); next(); }, capability.reject); return; } // Must be a child page dictionary. assert( isDict(currentNode), 'page dictionary kid reference points to wrong type of object' ); var count = currentNode.get('Count'); // If the current node doesn't have any children, avoid getting stuck // in an empty node further down in the tree (see issue5644.pdf). if (count === 0) { checkAllKids = true; } // Skip nodes where the page can't be. if (currentPageIndex + count <= pageIndex) { currentPageIndex += count; continue; } var kids = currentNode.get('Kids'); assert(isArray(kids), 'page dictionary kids object is not an array'); if (!checkAllKids && count === kids.length) { // Nodes that don't have the page have been skipped and this is the // bottom of the tree which means the page requested must be a // descendant of this pages node. Ideally we would just resolve the // promise with the page ref here, but there is the case where more // pages nodes could link to single a page (see issue 3666 pdf). To // handle this push it back on the queue so if it is a pages node it // will be descended into. nodesToVisit = [kids[pageIndex - currentPageIndex]]; currentPageIndex = pageIndex; continue; } else { for (var last = kids.length - 1; last >= 0; last--) { nodesToVisit.push(kids[last]); } } } capability.reject('Page index ' + pageIndex + ' not found.'); } next(); return capability.promise; }, getPageIndex: function Catalog_getPageIndex(ref) { // The page tree nodes have the count of all the leaves below them. To get // how many pages are before we just have to walk up the tree and keep // adding the count of siblings to the left of the node. var xref = this.xref; function pagesBeforeRef(kidRef) { var total = 0; var parentRef; return xref.fetchAsync(kidRef).then(function (node) { if (!node) { return null; } parentRef = node.getRaw('Parent'); return node.getAsync('Parent'); }).then(function (parent) { if (!parent) { return null; } return parent.getAsync('Kids'); }).then(function (kids) { if (!kids) { return null; } var kidPromises = []; var found = false; for (var i = 0; i < kids.length; i++) { var kid = kids[i]; assert(isRef(kid), 'kids must be a ref'); if (kid.num === kidRef.num) { found = true; break; } kidPromises.push(xref.fetchAsync(kid).then(function (kid) { if (kid.has('Count')) { var count = kid.get('Count'); total += count; } else { // page leaf node total++; } })); } if (!found) { error('kid ref not found in parents kids'); } return Promise.all(kidPromises).then(function () { return [total, parentRef]; }); }); } var total = 0; function next(ref) { return pagesBeforeRef(ref).then(function (args) { if (!args) { return total; } var count = args[0]; var parentRef = args[1]; total += count; return next(parentRef); }); } return next(ref); } }; return Catalog; })(); var XRef = (function XRefClosure() { function XRef(stream, password) { this.stream = stream; this.entries = []; this.xrefstms = {}; // prepare the XRef cache this.cache = []; this.password = password; this.stats = { streamTypes: [], fontTypes: [] }; } XRef.prototype = { setStartXRef: function XRef_setStartXRef(startXRef) { // Store the starting positions of xref tables as we process them // so we can recover from missing data errors this.startXRefQueue = [startXRef]; }, parse: function XRef_parse(recoveryMode) { var trailerDict; if (!recoveryMode) { trailerDict = this.readXRef(); } else { warn('Indexing all PDF objects'); trailerDict = this.indexObjects(); } trailerDict.assignXref(this); this.trailer = trailerDict; var encrypt = trailerDict.get('Encrypt'); if (encrypt) { var ids = trailerDict.get('ID'); var fileId = (ids && ids.length) ? ids[0] : ''; this.encrypt = new CipherTransformFactory(encrypt, fileId, this.password); } // get the root dictionary (catalog) object if (!(this.root = trailerDict.get('Root'))) { error('Invalid root reference'); } }, processXRefTable: function XRef_processXRefTable(parser) { if (!('tableState' in this)) { // Stores state of the table as we process it so we can resume // from middle of table in case of missing data error this.tableState = { entryNum: 0, streamPos: parser.lexer.stream.pos, parserBuf1: parser.buf1, parserBuf2: parser.buf2 }; } var obj = this.readXRefTable(parser); // Sanity check if (!isCmd(obj, 'trailer')) { error('Invalid XRef table: could not find trailer dictionary'); } // Read trailer dictionary, e.g. // trailer // << /Size 22 // /Root 20R // /Info 10R // /ID [ <81b14aafa313db63dbd6f981e49f94f4> ] // >> // The parser goes through the entire stream << ... >> and provides // a getter interface for the key-value table var dict = parser.getObj(); // The pdflib PDF generator can generate a nested trailer dictionary if (!isDict(dict) && dict.dict) { dict = dict.dict; } if (!isDict(dict)) { error('Invalid XRef table: could not parse trailer dictionary'); } delete this.tableState; return dict; }, readXRefTable: function XRef_readXRefTable(parser) { // Example of cross-reference table: // xref // 0 1 <-- subsection header (first obj #, obj count) // 0000000000 65535 f <-- actual object (offset, generation #, f/n) // 23 2 <-- subsection header ... and so on ... // 0000025518 00002 n // 0000025635 00000 n // trailer // ... var stream = parser.lexer.stream; var tableState = this.tableState; stream.pos = tableState.streamPos; parser.buf1 = tableState.parserBuf1; parser.buf2 = tableState.parserBuf2; // Outer loop is over subsection headers var obj; while (true) { if (!('firstEntryNum' in tableState) || !('entryCount' in tableState)) { if (isCmd(obj = parser.getObj(), 'trailer')) { break; } tableState.firstEntryNum = obj; tableState.entryCount = parser.getObj(); } var first = tableState.firstEntryNum; var count = tableState.entryCount; if (!isInt(first) || !isInt(count)) { error('Invalid XRef table: wrong types in subsection header'); } // Inner loop is over objects themselves for (var i = tableState.entryNum; i < count; i++) { tableState.streamPos = stream.pos; tableState.entryNum = i; tableState.parserBuf1 = parser.buf1; tableState.parserBuf2 = parser.buf2; var entry = {}; entry.offset = parser.getObj(); entry.gen = parser.getObj(); var type = parser.getObj(); if (isCmd(type, 'f')) { entry.free = true; } else if (isCmd(type, 'n')) { entry.uncompressed = true; } // Validate entry obj if (!isInt(entry.offset) || !isInt(entry.gen) || !(entry.free || entry.uncompressed)) { error('Invalid entry in XRef subsection: ' + first + ', ' + count); } if (!this.entries[i + first]) { this.entries[i + first] = entry; } } tableState.entryNum = 0; tableState.streamPos = stream.pos; tableState.parserBuf1 = parser.buf1; tableState.parserBuf2 = parser.buf2; delete tableState.firstEntryNum; delete tableState.entryCount; } // Per issue 3248: hp scanners generate bad XRef if (first === 1 && this.entries[1] && this.entries[1].free) { // shifting the entries this.entries.shift(); } // Sanity check: as per spec, first object must be free if (this.entries[0] && !this.entries[0].free) { error('Invalid XRef table: unexpected first object'); } return obj; }, processXRefStream: function XRef_processXRefStream(stream) { if (!('streamState' in this)) { // Stores state of the stream as we process it so we can resume // from middle of stream in case of missing data error var streamParameters = stream.dict; var byteWidths = streamParameters.get('W'); var range = streamParameters.get('Index'); if (!range) { range = [0, streamParameters.get('Size')]; } this.streamState = { entryRanges: range, byteWidths: byteWidths, entryNum: 0, streamPos: stream.pos }; } this.readXRefStream(stream); delete this.streamState; return stream.dict; }, readXRefStream: function XRef_readXRefStream(stream) { var i, j; var streamState = this.streamState; stream.pos = streamState.streamPos; var byteWidths = streamState.byteWidths; var typeFieldWidth = byteWidths[0]; var offsetFieldWidth = byteWidths[1]; var generationFieldWidth = byteWidths[2]; var entryRanges = streamState.entryRanges; while (entryRanges.length > 0) { var first = entryRanges[0]; var n = entryRanges[1]; if (!isInt(first) || !isInt(n)) { error('Invalid XRef range fields: ' + first + ', ' + n); } if (!isInt(typeFieldWidth) || !isInt(offsetFieldWidth) || !isInt(generationFieldWidth)) { error('Invalid XRef entry fields length: ' + first + ', ' + n); } for (i = streamState.entryNum; i < n; ++i) { streamState.entryNum = i; streamState.streamPos = stream.pos; var type = 0, offset = 0, generation = 0; for (j = 0; j < typeFieldWidth; ++j) { type = (type << 8) | stream.getByte(); } // if type field is absent, its default value is 1 if (typeFieldWidth === 0) { type = 1; } for (j = 0; j < offsetFieldWidth; ++j) { offset = (offset << 8) | stream.getByte(); } for (j = 0; j < generationFieldWidth; ++j) { generation = (generation << 8) | stream.getByte(); } var entry = {}; entry.offset = offset; entry.gen = generation; switch (type) { case 0: entry.free = true; break; case 1: entry.uncompressed = true; break; case 2: break; default: error('Invalid XRef entry type: ' + type); } if (!this.entries[first + i]) { this.entries[first + i] = entry; } } streamState.entryNum = 0; streamState.streamPos = stream.pos; entryRanges.splice(0, 2); } }, indexObjects: function XRef_indexObjects() { // Simple scan through the PDF content to find objects, // trailers and XRef streams. function readToken(data, offset) { var token = '', ch = data[offset]; while (ch !== 13 && ch !== 10) { if (++offset >= data.length) { break; } token += String.fromCharCode(ch); ch = data[offset]; } return token; } function skipUntil(data, offset, what) { var length = what.length, dataLength = data.length; var skipped = 0; // finding byte sequence while (offset < dataLength) { var i = 0; while (i < length && data[offset + i] === what[i]) { ++i; } if (i >= length) { break; // sequence found } offset++; skipped++; } return skipped; } var trailerBytes = new Uint8Array([116, 114, 97, 105, 108, 101, 114]); var startxrefBytes = new Uint8Array([115, 116, 97, 114, 116, 120, 114, 101, 102]); var endobjBytes = new Uint8Array([101, 110, 100, 111, 98, 106]); var xrefBytes = new Uint8Array([47, 88, 82, 101, 102]); var stream = this.stream; stream.pos = 0; var buffer = stream.getBytes(); var position = stream.start, length = buffer.length; var trailers = [], xrefStms = []; while (position < length) { var ch = buffer[position]; if (ch === 32 || ch === 9 || ch === 13 || ch === 10) { ++position; continue; } if (ch === 37) { // %-comment do { ++position; if (position >= length) { break; } ch = buffer[position]; } while (ch !== 13 && ch !== 10); continue; } var token = readToken(buffer, position); var m; if (token === 'xref') { position += skipUntil(buffer, position, trailerBytes); trailers.push(position); position += skipUntil(buffer, position, startxrefBytes); } else if ((m = /^(\d+)\s+(\d+)\s+obj\b/.exec(token))) { if (typeof this.entries[m[1]] === 'undefined') { this.entries[m[1]] = { offset: position, gen: m[2] | 0, uncompressed: true }; } var contentLength = skipUntil(buffer, position, endobjBytes) + 7; var content = buffer.subarray(position, position + contentLength); // checking XRef stream suspect // (it shall have '/XRef' and next char is not a letter) var xrefTagOffset = skipUntil(content, 0, xrefBytes); if (xrefTagOffset < contentLength && content[xrefTagOffset + 5] < 64) { xrefStms.push(position); this.xrefstms[position] = 1; // don't read it recursively } position += contentLength; } else { position += token.length + 1; } } // reading XRef streams var i, ii; for (i = 0, ii = xrefStms.length; i < ii; ++i) { this.startXRefQueue.push(xrefStms[i]); this.readXRef(/* recoveryMode */ true); } // finding main trailer var dict; for (i = 0, ii = trailers.length; i < ii; ++i) { stream.pos = trailers[i]; var parser = new Parser(new Lexer(stream), true, this); var obj = parser.getObj(); if (!isCmd(obj, 'trailer')) { continue; } // read the trailer dictionary if (!isDict(dict = parser.getObj())) { continue; } // taking the first one with 'ID' if (dict.has('ID')) { return dict; } } // no tailer with 'ID', taking last one (if exists) if (dict) { return dict; } // nothing helps // calling error() would reject worker with an UnknownErrorException. throw new InvalidPDFException('Invalid PDF structure'); }, readXRef: function XRef_readXRef(recoveryMode) { var stream = this.stream; try { while (this.startXRefQueue.length) { var startXRef = this.startXRefQueue[0]; stream.pos = startXRef + stream.start; var parser = new Parser(new Lexer(stream), true, this); var obj = parser.getObj(); var dict; // Get dictionary if (isCmd(obj, 'xref')) { // Parse end-of-file XRef dict = this.processXRefTable(parser); if (!this.topDict) { this.topDict = dict; } // Recursively get other XRefs 'XRefStm', if any obj = dict.get('XRefStm'); if (isInt(obj)) { var pos = obj; // ignore previously loaded xref streams // (possible infinite recursion) if (!(pos in this.xrefstms)) { this.xrefstms[pos] = 1; this.startXRefQueue.push(pos); } } } else if (isInt(obj)) { // Parse in-stream XRef if (!isInt(parser.getObj()) || !isCmd(parser.getObj(), 'obj') || !isStream(obj = parser.getObj())) { error('Invalid XRef stream'); } dict = this.processXRefStream(obj); if (!this.topDict) { this.topDict = dict; } if (!dict) { error('Failed to read XRef stream'); } } else { error('Invalid XRef stream header'); } // Recursively get previous dictionary, if any obj = dict.get('Prev'); if (isInt(obj)) { this.startXRefQueue.push(obj); } else if (isRef(obj)) { // The spec says Prev must not be a reference, i.e. "/Prev NNN" // This is a fallback for non-compliant PDFs, i.e. "/Prev NNN 0 R" this.startXRefQueue.push(obj.num); } this.startXRefQueue.shift(); } return this.topDict; } catch (e) { if (e instanceof MissingDataException) { throw e; } info('(while reading XRef): ' + e); } if (recoveryMode) { return; } throw new XRefParseException(); }, getEntry: function XRef_getEntry(i) { var xrefEntry = this.entries[i]; if (xrefEntry && !xrefEntry.free && xrefEntry.offset) { return xrefEntry; } return null; }, fetchIfRef: function XRef_fetchIfRef(obj) { if (!isRef(obj)) { return obj; } return this.fetch(obj); }, fetch: function XRef_fetch(ref, suppressEncryption) { assert(isRef(ref), 'ref object is not a reference'); var num = ref.num; if (num in this.cache) { var cacheEntry = this.cache[num]; return cacheEntry; } var xrefEntry = this.getEntry(num); // the referenced entry can be free if (xrefEntry === null) { return (this.cache[num] = null); } if (xrefEntry.uncompressed) { xrefEntry = this.fetchUncompressed(ref, xrefEntry, suppressEncryption); } else { xrefEntry = this.fetchCompressed(xrefEntry, suppressEncryption); } if (isDict(xrefEntry)){ xrefEntry.objId = ref.toString(); } else if (isStream(xrefEntry)) { xrefEntry.dict.objId = ref.toString(); } return xrefEntry; }, fetchUncompressed: function XRef_fetchUncompressed(ref, xrefEntry, suppressEncryption) { var gen = ref.gen; var num = ref.num; if (xrefEntry.gen !== gen) { error('inconsistent generation in XRef'); } var stream = this.stream.makeSubStream(xrefEntry.offset + this.stream.start); var parser = new Parser(new Lexer(stream), true, this); var obj1 = parser.getObj(); var obj2 = parser.getObj(); var obj3 = parser.getObj(); if (!isInt(obj1) || parseInt(obj1, 10) !== num || !isInt(obj2) || parseInt(obj2, 10) !== gen || !isCmd(obj3)) { error('bad XRef entry'); } if (!isCmd(obj3, 'obj')) { // some bad PDFs use "obj1234" and really mean 1234 if (obj3.cmd.indexOf('obj') === 0) { num = parseInt(obj3.cmd.substring(3), 10); if (!isNaN(num)) { return num; } } error('bad XRef entry'); } if (this.encrypt && !suppressEncryption) { xrefEntry = parser.getObj(this.encrypt.createCipherTransform(num, gen)); } else { xrefEntry = parser.getObj(); } if (!isStream(xrefEntry)) { this.cache[num] = xrefEntry; } return xrefEntry; }, fetchCompressed: function XRef_fetchCompressed(xrefEntry, suppressEncryption) { var tableOffset = xrefEntry.offset; var stream = this.fetch(new Ref(tableOffset, 0)); if (!isStream(stream)) { error('bad ObjStm stream'); } var first = stream.dict.get('First'); var n = stream.dict.get('N'); if (!isInt(first) || !isInt(n)) { error('invalid first and n parameters for ObjStm stream'); } var parser = new Parser(new Lexer(stream), false, this); parser.allowStreams = true; var i, entries = [], num, nums = []; // read the object numbers to populate cache for (i = 0; i < n; ++i) { num = parser.getObj(); if (!isInt(num)) { error('invalid object number in the ObjStm stream: ' + num); } nums.push(num); var offset = parser.getObj(); if (!isInt(offset)) { error('invalid object offset in the ObjStm stream: ' + offset); } } // read stream objects for cache for (i = 0; i < n; ++i) { entries.push(parser.getObj()); num = nums[i]; var entry = this.entries[num]; if (entry && entry.offset === tableOffset && entry.gen === i) { this.cache[num] = entries[i]; } } xrefEntry = entries[xrefEntry.gen]; if (xrefEntry === undefined) { error('bad XRef entry for compressed object'); } return xrefEntry; }, fetchIfRefAsync: function XRef_fetchIfRefAsync(obj) { if (!isRef(obj)) { return Promise.resolve(obj); } return this.fetchAsync(obj); }, fetchAsync: function XRef_fetchAsync(ref, suppressEncryption) { var streamManager = this.stream.manager; var xref = this; return new Promise(function tryFetch(resolve, reject) { try { resolve(xref.fetch(ref, suppressEncryption)); } catch (e) { if (e instanceof MissingDataException) { streamManager.requestRange(e.begin, e.end, function () { tryFetch(resolve, reject); }); return; } reject(e); } }); }, getCatalogObj: function XRef_getCatalogObj() { return this.root; } }; return XRef; })(); /** * A NameTree is like a Dict but has some advantageous properties, see the * spec (7.9.6) for more details. * TODO: implement all the Dict functions and make this more efficent. */ var NameTree = (function NameTreeClosure() { function NameTree(root, xref) { this.root = root; this.xref = xref; } NameTree.prototype = { getAll: function NameTree_getAll() { var dict = {}; if (!this.root) { return dict; } var xref = this.xref; // reading name tree var processed = new RefSet(); processed.put(this.root); var queue = [this.root]; while (queue.length > 0) { var i, n; var obj = xref.fetchIfRef(queue.shift()); if (!isDict(obj)) { continue; } if (obj.has('Kids')) { var kids = obj.get('Kids'); for (i = 0, n = kids.length; i < n; i++) { var kid = kids[i]; if (processed.has(kid)) { error('invalid destinations'); } queue.push(kid); processed.put(kid); } continue; } var names = obj.get('Names'); if (names) { for (i = 0, n = names.length; i < n; i += 2) { dict[names[i]] = xref.fetchIfRef(names[i + 1]); } } } return dict; }, get: function NameTree_get(destinationId) { if (!this.root) { return null; } var xref = this.xref; var kidsOrNames = xref.fetchIfRef(this.root); var loopCount = 0; var MAX_NAMES_LEVELS = 10; var l, r, m; // Perform a binary search to quickly find the entry that // contains the named destination we are looking for. while (kidsOrNames.has('Kids')) { loopCount++; if (loopCount > MAX_NAMES_LEVELS) { warn('Search depth limit for named destionations has been reached.'); return null; } var kids = kidsOrNames.get('Kids'); if (!isArray(kids)) { return null; } l = 0; r = kids.length - 1; while (l <= r) { m = (l + r) >> 1; var kid = xref.fetchIfRef(kids[m]); var limits = kid.get('Limits'); if (destinationId < limits[0]) { r = m - 1; } else if (destinationId > limits[1]) { l = m + 1; } else { kidsOrNames = xref.fetchIfRef(kids[m]); break; } } if (l > r) { return null; } } // If we get here, then we have found the right entry. Now // go through the named destinations in the Named dictionary // until we find the exact destination we're looking for. var names = kidsOrNames.get('Names'); if (isArray(names)) { // Perform a binary search to reduce the lookup time. l = 0; r = names.length - 2; while (l <= r) { // Check only even indices (0, 2, 4, ...) because the // odd indices contain the actual D array. m = (l + r) & ~1; if (destinationId < names[m]) { r = m - 2; } else if (destinationId > names[m]) { l = m + 2; } else { return xref.fetchIfRef(names[m + 1]); } } } return null; } }; return NameTree; })(); /** * "A PDF file can refer to the contents of another file by using a File * Specification (PDF 1.1)", see the spec (7.11) for more details. * NOTE: Only embedded files are supported (as part of the attachments support) * TODO: support the 'URL' file system (with caching if !/V), portable * collections attributes and related files (/RF) */ var FileSpec = (function FileSpecClosure() { function FileSpec(root, xref) { if (!root || !isDict(root)) { return; } this.xref = xref; this.root = root; if (root.has('FS')) { this.fs = root.get('FS'); } this.description = root.has('Desc') ? stringToPDFString(root.get('Desc')) : ''; if (root.has('RF')) { warn('Related file specifications are not supported'); } this.contentAvailable = true; if (!root.has('EF')) { this.contentAvailable = false; warn('Non-embedded file specifications are not supported'); } } function pickPlatformItem(dict) { // Look for the filename in this order: // UF, F, Unix, Mac, DOS if (dict.has('UF')) { return dict.get('UF'); } else if (dict.has('F')) { return dict.get('F'); } else if (dict.has('Unix')) { return dict.get('Unix'); } else if (dict.has('Mac')) { return dict.get('Mac'); } else if (dict.has('DOS')) { return dict.get('DOS'); } else { return null; } } FileSpec.prototype = { get filename() { if (!this._filename && this.root) { var filename = pickPlatformItem(this.root) || 'unnamed'; this._filename = stringToPDFString(filename). replace(/\\\\/g, '\\'). replace(/\\\//g, '/'). replace(/\\/g, '/'); } return this._filename; }, get content() { if (!this.contentAvailable) { return null; } if (!this.contentRef && this.root) { this.contentRef = pickPlatformItem(this.root.get('EF')); } var content = null; if (this.contentRef) { var xref = this.xref; var fileObj = xref.fetchIfRef(this.contentRef); if (fileObj && isStream(fileObj)) { content = fileObj.getBytes(); } else { warn('Embedded file specification points to non-existing/invalid ' + 'content'); } } else { warn('Embedded file specification does not have a content'); } return content; }, get serializable() { return { filename: this.filename, content: this.content }; } }; return FileSpec; })(); /** * A helper for loading missing data in object graphs. It traverses the graph * depth first and queues up any objects that have missing data. Once it has * has traversed as many objects that are available it attempts to bundle the * missing data requests and then resume from the nodes that weren't ready. * * NOTE: It provides protection from circular references by keeping track of * of loaded references. However, you must be careful not to load any graphs * that have references to the catalog or other pages since that will cause the * entire PDF document object graph to be traversed. */ var ObjectLoader = (function() { function mayHaveChildren(value) { return isRef(value) || isDict(value) || isArray(value) || isStream(value); } function addChildren(node, nodesToVisit) { var value; if (isDict(node) || isStream(node)) { var map; if (isDict(node)) { map = node.map; } else { map = node.dict.map; } for (var key in map) { value = map[key]; if (mayHaveChildren(value)) { nodesToVisit.push(value); } } } else if (isArray(node)) { for (var i = 0, ii = node.length; i < ii; i++) { value = node[i]; if (mayHaveChildren(value)) { nodesToVisit.push(value); } } } } function ObjectLoader(obj, keys, xref) { this.obj = obj; this.keys = keys; this.xref = xref; this.refSet = null; } ObjectLoader.prototype = { load: function ObjectLoader_load() { var keys = this.keys; this.capability = createPromiseCapability(); // Don't walk the graph if all the data is already loaded. if (!(this.xref.stream instanceof ChunkedStream) || this.xref.stream.getMissingChunks().length === 0) { this.capability.resolve(); return this.capability.promise; } this.refSet = new RefSet(); // Setup the initial nodes to visit. var nodesToVisit = []; for (var i = 0; i < keys.length; i++) { nodesToVisit.push(this.obj[keys[i]]); } this.walk(nodesToVisit); return this.capability.promise; }, walk: function ObjectLoader_walk(nodesToVisit) { var nodesToRevisit = []; var pendingRequests = []; // DFS walk of the object graph. while (nodesToVisit.length) { var currentNode = nodesToVisit.pop(); // Only references or chunked streams can cause missing data exceptions. if (isRef(currentNode)) { // Skip nodes that have already been visited. if (this.refSet.has(currentNode)) { continue; } try { var ref = currentNode; this.refSet.put(ref); currentNode = this.xref.fetch(currentNode); } catch (e) { if (!(e instanceof MissingDataException)) { throw e; } nodesToRevisit.push(currentNode); pendingRequests.push({ begin: e.begin, end: e.end }); } } if (currentNode && currentNode.getBaseStreams) { var baseStreams = currentNode.getBaseStreams(); var foundMissingData = false; for (var i = 0; i < baseStreams.length; i++) { var stream = baseStreams[i]; if (stream.getMissingChunks && stream.getMissingChunks().length) { foundMissingData = true; pendingRequests.push({ begin: stream.start, end: stream.end }); } } if (foundMissingData) { nodesToRevisit.push(currentNode); } } addChildren(currentNode, nodesToVisit); } if (pendingRequests.length) { this.xref.stream.manager.requestRanges(pendingRequests, function pendingRequestCallback() { nodesToVisit = nodesToRevisit; for (var i = 0; i < nodesToRevisit.length; i++) { var node = nodesToRevisit[i]; // Remove any reference nodes from the currrent refset so they // aren't skipped when we revist them. if (isRef(node)) { this.refSet.remove(node); } } this.walk(nodesToVisit); }.bind(this)); return; } // Everything is loaded. this.refSet = null; this.capability.resolve(); } }; return ObjectLoader; })();