/* 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. */ import { assert, FormatError, info, InvalidPDFException, isArrayBuffer, isArrayEqual, isBool, isNum, isString, OPS, PageActionEventType, shadow, stringToBytes, stringToPDFString, stringToUTF8String, unreachable, Util, warn, } from "../shared/util.js"; import { clearPrimitiveCaches, Dict, isDict, isName, isRef, isStream, Name, Ref, } from "./primitives.js"; import { collectActions, getInheritableProperty, isWhiteSpace, MissingDataException, validateCSSFont, XRefEntryException, XRefParseException, } from "./core_utils.js"; import { NullStream, Stream } from "./stream.js"; import { AnnotationFactory } from "./annotation.js"; import { BaseStream } from "./base_stream.js"; import { calculateMD5 } from "./crypto.js"; import { Catalog } from "./catalog.js"; import { getXfaFontWidths } from "./xfa_fonts.js"; import { Linearization } from "./parser.js"; import { ObjectLoader } from "./object_loader.js"; import { OperatorList } from "./operator_list.js"; import { PartialEvaluator } from "./evaluator.js"; import { StreamsSequenceStream } from "./decode_stream.js"; import { StructTreePage } from "./struct_tree.js"; import { XFAFactory } from "./xfa/factory.js"; import { XRef } from "./xref.js"; const DEFAULT_USER_UNIT = 1.0; const LETTER_SIZE_MEDIABOX = [0, 0, 612, 792]; class Page { constructor({ pdfManager, xref, pageIndex, pageDict, ref, globalIdFactory, fontCache, builtInCMapCache, standardFontDataCache, globalImageCache, nonBlendModesSet, xfaFactory, }) { this.pdfManager = pdfManager; this.pageIndex = pageIndex; this.pageDict = pageDict; this.xref = xref; this.ref = ref; this.fontCache = fontCache; this.builtInCMapCache = builtInCMapCache; this.standardFontDataCache = standardFontDataCache; this.globalImageCache = globalImageCache; this.nonBlendModesSet = nonBlendModesSet; this.evaluatorOptions = pdfManager.evaluatorOptions; this.resourcesPromise = null; this.xfaFactory = xfaFactory; const idCounters = { obj: 0, }; this._localIdFactory = class extends globalIdFactory { static createObjId() { return `p${pageIndex}_${++idCounters.obj}`; } static getPageObjId() { return `page${ref.toString()}`; } }; } /** * @private */ _getInheritableProperty(key, getArray = false) { const value = getInheritableProperty({ dict: this.pageDict, key, getArray, stopWhenFound: false, }); if (!Array.isArray(value)) { return value; } if (value.length === 1 || !isDict(value[0])) { return value[0]; } return Dict.merge({ xref: this.xref, dictArray: value }); } get content() { return this.pageDict.getArray("Contents"); } get resources() { // For robustness: The spec states that a \Resources entry has to be // present, but can be empty. Some documents still omit it; in this case // we return an empty dictionary. return shadow( this, "resources", this._getInheritableProperty("Resources") || Dict.empty ); } _getBoundingBox(name) { if (this.xfaData) { return this.xfaData.bbox; } const box = this._getInheritableProperty(name, /* getArray = */ true); if (Array.isArray(box) && box.length === 4) { if (box[2] - box[0] !== 0 && box[3] - box[1] !== 0) { return box; } warn(`Empty /${name} entry.`); } return null; } get mediaBox() { // Reset invalid media box to letter size. return shadow( this, "mediaBox", this._getBoundingBox("MediaBox") || LETTER_SIZE_MEDIABOX ); } get cropBox() { // Reset invalid crop box to media box. return shadow( this, "cropBox", this._getBoundingBox("CropBox") || this.mediaBox ); } get userUnit() { let obj = this.pageDict.get("UserUnit"); if (!isNum(obj) || obj <= 0) { obj = DEFAULT_USER_UNIT; } return shadow(this, "userUnit", obj); } get view() { // From the spec, 6th ed., p.963: // "The crop, bleed, trim, and art boxes should not ordinarily // extend beyond the boundaries of the media box. If they do, they are // effectively reduced to their intersection with the media box." const { cropBox, mediaBox } = this; let view; if (cropBox === mediaBox || isArrayEqual(cropBox, mediaBox)) { view = mediaBox; } else { const box = Util.intersect(cropBox, mediaBox); if (box && box[2] - box[0] !== 0 && box[3] - box[1] !== 0) { view = box; } else { warn("Empty /CropBox and /MediaBox intersection."); } } return shadow(this, "view", view || mediaBox); } get rotate() { let rotate = this._getInheritableProperty("Rotate") || 0; // Normalize rotation so it's a multiple of 90 and between 0 and 270. if (rotate % 90 !== 0) { rotate = 0; } else if (rotate >= 360) { rotate %= 360; } else if (rotate < 0) { // The spec doesn't cover negatives. Assume it's counterclockwise // rotation. The following is the other implementation of modulo. rotate = ((rotate % 360) + 360) % 360; } return shadow(this, "rotate", rotate); } /** * @returns {Promise} */ getContentStream() { return this.pdfManager.ensure(this, "content").then(content => { if (content instanceof BaseStream) { return content; } if (Array.isArray(content)) { return new StreamsSequenceStream(content); } // Replace non-existent page content with empty content. return new NullStream(); }); } get xfaData() { if (this.xfaFactory) { return shadow(this, "xfaData", { bbox: this.xfaFactory.getBoundingBox(this.pageIndex), }); } return shadow(this, "xfaData", null); } save(handler, task, annotationStorage) { const partialEvaluator = new PartialEvaluator({ xref: this.xref, handler, pageIndex: this.pageIndex, idFactory: this._localIdFactory, fontCache: this.fontCache, builtInCMapCache: this.builtInCMapCache, standardFontDataCache: this.standardFontDataCache, globalImageCache: this.globalImageCache, options: this.evaluatorOptions, }); // Fetch the page's annotations and save the content // in case of interactive form fields. return this._parsedAnnotations.then(function (annotations) { const newRefsPromises = []; for (const annotation of annotations) { if (!annotation.mustBePrinted(annotationStorage)) { continue; } newRefsPromises.push( annotation .save(partialEvaluator, task, annotationStorage) .catch(function (reason) { warn( "save - ignoring annotation data during " + `"${task.name}" task: "${reason}".` ); return null; }) ); } return Promise.all(newRefsPromises); }); } loadResources(keys) { if (!this.resourcesPromise) { // TODO: add async `_getInheritableProperty` and remove this. this.resourcesPromise = this.pdfManager.ensure(this, "resources"); } return this.resourcesPromise.then(() => { const objectLoader = new ObjectLoader(this.resources, keys, this.xref); return objectLoader.load(); }); } getOperatorList({ handler, sink, task, intent, renderInteractiveForms, annotationStorage, }) { const contentStreamPromise = this.getContentStream(); const resourcesPromise = this.loadResources([ "ColorSpace", "ExtGState", "Font", "Pattern", "Properties", "Shading", "XObject", ]); const partialEvaluator = new PartialEvaluator({ xref: this.xref, handler, pageIndex: this.pageIndex, idFactory: this._localIdFactory, fontCache: this.fontCache, builtInCMapCache: this.builtInCMapCache, standardFontDataCache: this.standardFontDataCache, globalImageCache: this.globalImageCache, options: this.evaluatorOptions, }); const dataPromises = Promise.all([contentStreamPromise, resourcesPromise]); const pageListPromise = dataPromises.then(([contentStream]) => { const opList = new OperatorList(intent, sink); handler.send("StartRenderPage", { transparency: partialEvaluator.hasBlendModes( this.resources, this.nonBlendModesSet ), pageIndex: this.pageIndex, intent, }); return partialEvaluator .getOperatorList({ stream: contentStream, task, resources: this.resources, operatorList: opList, }) .then(function () { return opList; }); }); // Fetch the page's annotations and add their operator lists to the // page's operator list to render them. return Promise.all([pageListPromise, this._parsedAnnotations]).then( function ([pageOpList, annotations]) { if (annotations.length === 0) { pageOpList.flush(true); return { length: pageOpList.totalLength }; } // Collect the operator list promises for the annotations. Each promise // is resolved with the complete operator list for a single annotation. const opListPromises = []; for (const annotation of annotations) { if ( (intent === "display" && annotation.mustBeViewed(annotationStorage)) || (intent === "print" && annotation.mustBePrinted(annotationStorage)) ) { opListPromises.push( annotation .getOperatorList( partialEvaluator, task, renderInteractiveForms, annotationStorage ) .catch(function (reason) { warn( "getOperatorList - ignoring annotation data during " + `"${task.name}" task: "${reason}".` ); return null; }) ); } } return Promise.all(opListPromises).then(function (opLists) { pageOpList.addOp(OPS.beginAnnotations, []); for (const opList of opLists) { pageOpList.addOpList(opList); } pageOpList.addOp(OPS.endAnnotations, []); pageOpList.flush(true); return { length: pageOpList.totalLength }; }); } ); } extractTextContent({ handler, task, normalizeWhitespace, includeMarkedContent, sink, combineTextItems, }) { const contentStreamPromise = this.getContentStream(); const resourcesPromise = this.loadResources([ "ExtGState", "Font", "Properties", "XObject", ]); const dataPromises = Promise.all([contentStreamPromise, resourcesPromise]); return dataPromises.then(([contentStream]) => { const partialEvaluator = new PartialEvaluator({ xref: this.xref, handler, pageIndex: this.pageIndex, idFactory: this._localIdFactory, fontCache: this.fontCache, builtInCMapCache: this.builtInCMapCache, standardFontDataCache: this.standardFontDataCache, globalImageCache: this.globalImageCache, options: this.evaluatorOptions, }); return partialEvaluator.getTextContent({ stream: contentStream, task, resources: this.resources, normalizeWhitespace, includeMarkedContent, combineTextItems, sink, }); }); } async getStructTree() { const structTreeRoot = await this.pdfManager.ensureCatalog( "structTreeRoot" ); if (!structTreeRoot) { return null; } const structTree = await this.pdfManager.ensure(this, "_parseStructTree", [ structTreeRoot, ]); return structTree.serializable; } /** * @private */ _parseStructTree(structTreeRoot) { const tree = new StructTreePage(structTreeRoot, this.pageDict); tree.parse(); return tree; } getAnnotationsData(intent) { return this._parsedAnnotations.then(function (annotations) { const annotationsData = []; for (let i = 0, ii = annotations.length; i < ii; i++) { // Get the annotation even if it's hidden because // JS can change its display. if ( !intent || (intent === "display" && annotations[i].viewable) || (intent === "print" && annotations[i].printable) ) { annotationsData.push(annotations[i].data); } } return annotationsData; }); } get annotations() { const annots = this._getInheritableProperty("Annots"); return shadow(this, "annotations", Array.isArray(annots) ? annots : []); } get _parsedAnnotations() { const parsedAnnotations = this.pdfManager .ensure(this, "annotations") .then(() => { const annotationPromises = []; for (const annotationRef of this.annotations) { annotationPromises.push( AnnotationFactory.create( this.xref, annotationRef, this.pdfManager, this._localIdFactory, /* collectFields */ false ).catch(function (reason) { warn(`_parsedAnnotations: "${reason}".`); return null; }) ); } return Promise.all(annotationPromises).then(function (annotations) { return annotations.filter(annotation => !!annotation); }); }); return shadow(this, "_parsedAnnotations", parsedAnnotations); } get jsActions() { const actions = collectActions( this.xref, this.pageDict, PageActionEventType ); return shadow(this, "jsActions", actions); } } const PDF_HEADER_SIGNATURE = new Uint8Array([0x25, 0x50, 0x44, 0x46, 0x2d]); const STARTXREF_SIGNATURE = new Uint8Array([ 0x73, 0x74, 0x61, 0x72, 0x74, 0x78, 0x72, 0x65, 0x66, ]); const ENDOBJ_SIGNATURE = new Uint8Array([0x65, 0x6e, 0x64, 0x6f, 0x62, 0x6a]); const FINGERPRINT_FIRST_BYTES = 1024; const EMPTY_FINGERPRINT = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"; const PDF_HEADER_VERSION_REGEXP = /^[1-9]\.[0-9]$/; function find(stream, signature, limit = 1024, backwards = false) { if ( typeof PDFJSDev === "undefined" || PDFJSDev.test("!PRODUCTION || TESTING") ) { assert(limit > 0, 'The "limit" must be a positive integer.'); } const signatureLength = signature.length; const scanBytes = stream.peekBytes(limit); const scanLength = scanBytes.length - signatureLength; if (scanLength <= 0) { return false; } if (backwards) { const signatureEnd = signatureLength - 1; let pos = scanBytes.length - 1; while (pos >= signatureEnd) { let j = 0; while ( j < signatureLength && scanBytes[pos - j] === signature[signatureEnd - j] ) { j++; } if (j >= signatureLength) { // `signature` found. stream.pos += pos - signatureEnd; return true; } pos--; } } else { // forwards let pos = 0; while (pos <= scanLength) { let j = 0; while (j < signatureLength && scanBytes[pos + j] === signature[j]) { j++; } if (j >= signatureLength) { // `signature` found. stream.pos += pos; return true; } pos++; } } return false; } /** * The `PDFDocument` class holds all the (worker-thread) data of the PDF file. */ class PDFDocument { constructor(pdfManager, arg) { let stream; if (isStream(arg)) { stream = arg; } else if (isArrayBuffer(arg)) { stream = new Stream(arg); } else { throw new Error("PDFDocument: Unknown argument type"); } if (stream.length <= 0) { throw new InvalidPDFException( "The PDF file is empty, i.e. its size is zero bytes." ); } this.pdfManager = pdfManager; this.stream = stream; this.xref = new XRef(stream, pdfManager); this._pagePromises = []; this._version = null; const idCounters = { font: 0, }; this._globalIdFactory = class { static getDocId() { return `g_${pdfManager.docId}`; } static createFontId() { return `f${++idCounters.font}`; } static createObjId() { unreachable("Abstract method `createObjId` called."); } static getPageObjId() { unreachable("Abstract method `getPageObjId` called."); } }; } parse(recoveryMode) { this.xref.parse(recoveryMode); this.catalog = new Catalog(this.pdfManager, this.xref); // The `checkHeader` method is called before this method and parses the // version from the header. The specification states in section 7.5.2 // that the version from the catalog, if present, should overwrite the // version from the header. if (this.catalog.version) { this._version = this.catalog.version; } } get linearization() { let linearization = null; try { linearization = Linearization.create(this.stream); } catch (err) { if (err instanceof MissingDataException) { throw err; } info(err); } return shadow(this, "linearization", linearization); } get startXRef() { const stream = this.stream; let startXRef = 0; if (this.linearization) { // Find the end of the first object. stream.reset(); if (find(stream, ENDOBJ_SIGNATURE)) { startXRef = stream.pos + 6 - stream.start; } } else { // Find `startxref` by checking backwards from the end of the file. const step = 1024; const startXRefLength = STARTXREF_SIGNATURE.length; let found = false, pos = stream.end; while (!found && pos > 0) { pos -= step - startXRefLength; if (pos < 0) { pos = 0; } stream.pos = pos; found = find(stream, STARTXREF_SIGNATURE, step, true); } if (found) { stream.skip(9); let ch; do { ch = stream.getByte(); } while (isWhiteSpace(ch)); let str = ""; while (ch >= /* Space = */ 0x20 && ch <= /* '9' = */ 0x39) { str += String.fromCharCode(ch); ch = stream.getByte(); } startXRef = parseInt(str, 10); if (isNaN(startXRef)) { startXRef = 0; } } } return shadow(this, "startXRef", startXRef); } // Find the header, get the PDF format version and setup the // stream to start from the header. checkHeader() { const stream = this.stream; stream.reset(); if (!find(stream, PDF_HEADER_SIGNATURE)) { // May not be a PDF file, but don't throw an error and let // parsing continue. return; } stream.moveStart(); // Read the PDF format version. const MAX_PDF_VERSION_LENGTH = 12; let version = "", ch; while ((ch = stream.getByte()) > /* Space = */ 0x20) { if (version.length >= MAX_PDF_VERSION_LENGTH) { break; } version += String.fromCharCode(ch); } if (!this._version) { // Remove the "%PDF-" prefix. this._version = version.substring(5); } } parseStartXRef() { this.xref.setStartXRef(this.startXRef); } get numPages() { if (this.xfaFactory) { return shadow(this, "numPages", this.xfaFactory.numberPages); } const linearization = this.linearization; const num = linearization ? linearization.numPages : this.catalog.numPages; return shadow(this, "numPages", num); } /** * @private */ _hasOnlyDocumentSignatures(fields, recursionDepth = 0) { const RECURSION_LIMIT = 10; if (!Array.isArray(fields)) { return false; } return fields.every(field => { field = this.xref.fetchIfRef(field); if (!(field instanceof Dict)) { return false; } if (field.has("Kids")) { if (++recursionDepth > RECURSION_LIMIT) { warn("_hasOnlyDocumentSignatures: maximum recursion depth reached"); return false; } return this._hasOnlyDocumentSignatures( field.get("Kids"), recursionDepth ); } const isSignature = isName(field.get("FT"), "Sig"); const rectangle = field.get("Rect"); const isInvisible = Array.isArray(rectangle) && rectangle.every(value => value === 0); return isSignature && isInvisible; }); } get xfaData() { const acroForm = this.catalog.acroForm; if (!acroForm) { return null; } const xfa = acroForm.get("XFA"); const entries = { "xdp:xdp": "", template: "", datasets: "", config: "", connectionSet: "", localeSet: "", stylesheet: "", "/xdp:xdp": "", }; if (isStream(xfa) && !xfa.isEmpty) { try { entries["xdp:xdp"] = stringToUTF8String(xfa.getString()); return entries; } catch (_) { warn("XFA - Invalid utf-8 string."); return null; } } if (!Array.isArray(xfa) || xfa.length === 0) { return null; } for (let i = 0, ii = xfa.length; i < ii; i += 2) { let name; if (i === 0) { name = "xdp:xdp"; } else if (i === ii - 2) { name = "/xdp:xdp"; } else { name = xfa[i]; } if (!entries.hasOwnProperty(name)) { continue; } const data = this.xref.fetchIfRef(xfa[i + 1]); if (!isStream(data) || data.isEmpty) { continue; } try { entries[name] = stringToUTF8String(data.getString()); } catch (_) { warn("XFA - Invalid utf-8 string."); return null; } } return entries; } get xfaFactory() { if ( this.pdfManager.enableXfa && this.formInfo.hasXfa && !this.formInfo.hasAcroForm ) { const data = this.xfaData; return shadow(this, "xfaFactory", data ? new XFAFactory(data) : null); } return shadow(this, "xfaFaxtory", null); } get isPureXfa() { return this.xfaFactory && this.xfaFactory.isValid(); } get htmlForXfa() { if (this.xfaFactory) { return this.xfaFactory.getPages(); } return null; } async loadXfaImages() { const xfaImagesDict = await this.pdfManager.ensureCatalog("xfaImages"); if (!xfaImagesDict) { return; } const keys = xfaImagesDict.getKeys(); const objectLoader = new ObjectLoader(xfaImagesDict, keys, this.xref); await objectLoader.load(); const xfaImages = new Map(); for (const key of keys) { const stream = xfaImagesDict.get(key); if (!isStream(stream)) { continue; } xfaImages.set(key, stream.getBytes()); } this.xfaFactory.setImages(xfaImages); } async loadXfaFonts(handler, task) { const acroForm = await this.pdfManager.ensureCatalog("acroForm"); if (!acroForm) { return; } const resources = await acroForm.getAsync("DR"); if (!(resources instanceof Dict)) { return; } const objectLoader = new ObjectLoader(resources, ["Font"], this.xref); await objectLoader.load(); const fontRes = resources.get("Font"); if (!(fontRes instanceof Dict)) { return; } const options = Object.assign( Object.create(null), this.pdfManager.evaluatorOptions ); options.useSystemFonts = false; const partialEvaluator = new PartialEvaluator({ xref: this.xref, handler, pageIndex: -1, idFactory: this._globalIdFactory, fontCache: this.catalog.fontCache, builtInCMapCache: this.catalog.builtInCMapCache, standardFontDataCache: this.catalog.standardFontDataCache, options, }); const operatorList = new OperatorList(); const pdfFonts = []; const initialState = { get font() { return pdfFonts[pdfFonts.length - 1]; }, set font(font) { pdfFonts.push(font); }, clone() { return this; }, }; const fonts = new Map(); fontRes.forEach((fontName, font) => { fonts.set(fontName, font); }); const promises = []; for (const [fontName, font] of fonts) { const descriptor = font.get("FontDescriptor"); if (!(descriptor instanceof Dict)) { continue; } let fontFamily = descriptor.get("FontFamily"); // For example, "Wingdings 3" is not a valid font name in the css specs. fontFamily = fontFamily.replace(/[ ]+([0-9])/g, "$1"); const fontWeight = descriptor.get("FontWeight"); // Angle is expressed in degrees counterclockwise in PDF // when it's clockwise in CSS // (see https://drafts.csswg.org/css-fonts-4/#valdef-font-style-oblique-angle) const italicAngle = -descriptor.get("ItalicAngle"); const cssFontInfo = { fontFamily, fontWeight, italicAngle }; if (!validateCSSFont(cssFontInfo)) { continue; } promises.push( partialEvaluator .handleSetFont( resources, [Name.get(fontName), 1], /* fontRef = */ null, operatorList, task, initialState, /* fallbackFontDict = */ null, /* cssFontInfo = */ cssFontInfo ) .catch(function (reason) { warn(`loadXfaFonts: "${reason}".`); return null; }) ); } await Promise.all(promises); const missingFonts = this.xfaFactory.setFonts(pdfFonts); if (!missingFonts) { return; } options.ignoreErrors = true; promises.length = 0; pdfFonts.length = 0; const reallyMissingFonts = new Set(); for (const missing of missingFonts) { if (!getXfaFontWidths(`${missing}-Regular`)) { // No substitution available: we'll fallback on Myriad. reallyMissingFonts.add(missing); } } if (reallyMissingFonts.size) { missingFonts.push("PdfJS-Fallback"); } for (const missing of missingFonts) { if (reallyMissingFonts.has(missing)) { continue; } for (const fontInfo of [ { name: "Regular", fontWeight: 400, italicAngle: 0 }, { name: "Bold", fontWeight: 700, italicAngle: 0 }, { name: "Italic", fontWeight: 400, italicAngle: 12 }, { name: "BoldItalic", fontWeight: 700, italicAngle: 12 }, ]) { const name = `${missing}-${fontInfo.name}`; const widths = getXfaFontWidths(name); const dict = new Dict(null); dict.set("BaseFont", Name.get(name)); dict.set("Type", Name.get("Font")); dict.set("Subtype", Name.get("TrueType")); dict.set("Encoding", Name.get("WinAnsiEncoding")); const descriptor = new Dict(null); descriptor.set("Widths", widths); dict.set("FontDescriptor", descriptor); promises.push( partialEvaluator .handleSetFont( resources, [Name.get(name), 1], /* fontRef = */ null, operatorList, task, initialState, /* fallbackFontDict = */ dict, /* cssFontInfo = */ { fontFamily: missing, fontWeight: fontInfo.fontWeight, italicAngle: fontInfo.italicAngle, } ) .catch(function (reason) { warn(`loadXfaFonts: "${reason}".`); return null; }) ); } } await Promise.all(promises); this.xfaFactory.appendFonts(pdfFonts, reallyMissingFonts); } async serializeXfaData(annotationStorage) { if (this.xfaFactory) { return this.xfaFactory.serializeData(annotationStorage); } return null; } get formInfo() { const formInfo = { hasFields: false, hasAcroForm: false, hasXfa: false, hasSignatures: false, }; const acroForm = this.catalog.acroForm; if (!acroForm) { return shadow(this, "formInfo", formInfo); } try { const fields = acroForm.get("Fields"); const hasFields = Array.isArray(fields) && fields.length > 0; formInfo.hasFields = hasFields; // Used by the `fieldObjects` getter. // The document contains XFA data if the `XFA` entry is a non-empty // array or stream. const xfa = acroForm.get("XFA"); formInfo.hasXfa = (Array.isArray(xfa) && xfa.length > 0) || (isStream(xfa) && !xfa.isEmpty); // The document contains AcroForm data if the `Fields` entry is a // non-empty array and it doesn't consist of only document signatures. // This second check is required for files that don't actually contain // AcroForm data (only XFA data), but that use the `Fields` entry to // store (invisible) document signatures. This can be detected using // the first bit of the `SigFlags` integer (see Table 219 in the // specification). const sigFlags = acroForm.get("SigFlags"); const hasSignatures = !!(sigFlags & 0x1); const hasOnlyDocumentSignatures = hasSignatures && this._hasOnlyDocumentSignatures(fields); formInfo.hasAcroForm = hasFields && !hasOnlyDocumentSignatures; formInfo.hasSignatures = hasSignatures; } catch (ex) { if (ex instanceof MissingDataException) { throw ex; } warn(`Cannot fetch form information: "${ex}".`); } return shadow(this, "formInfo", formInfo); } get documentInfo() { const DocumentInfoValidators = { Title: isString, Author: isString, Subject: isString, Keywords: isString, Creator: isString, Producer: isString, CreationDate: isString, ModDate: isString, Trapped: isName, }; let version = this._version; if ( typeof version !== "string" || !PDF_HEADER_VERSION_REGEXP.test(version) ) { warn(`Invalid PDF header version number: ${version}`); version = null; } const docInfo = { PDFFormatVersion: version, IsLinearized: !!this.linearization, IsAcroFormPresent: this.formInfo.hasAcroForm, IsXFAPresent: this.formInfo.hasXfa, IsCollectionPresent: !!this.catalog.collection, IsSignaturesPresent: this.formInfo.hasSignatures, }; let infoDict; try { infoDict = this.xref.trailer.get("Info"); } catch (err) { if (err instanceof MissingDataException) { throw err; } info("The document information dictionary is invalid."); } if (isDict(infoDict)) { // Fill the document info with valid entries from the specification, // as well as any existing well-formed custom entries. for (const key of infoDict.getKeys()) { const value = infoDict.get(key); if (DocumentInfoValidators[key]) { // Make sure the (standard) value conforms to the specification. if (DocumentInfoValidators[key](value)) { docInfo[key] = typeof value !== "string" ? value : stringToPDFString(value); } else { info(`Bad value in document info for "${key}".`); } } else if (typeof key === "string") { // For custom values, only accept white-listed types to prevent // errors that would occur when trying to send non-serializable // objects to the main-thread (for example `Dict` or `Stream`). let customValue; if (isString(value)) { customValue = stringToPDFString(value); } else if (isName(value) || isNum(value) || isBool(value)) { customValue = value; } else { info(`Unsupported value in document info for (custom) "${key}".`); continue; } if (!docInfo.Custom) { docInfo.Custom = Object.create(null); } docInfo.Custom[key] = customValue; } } } return shadow(this, "documentInfo", docInfo); } get fingerprints() { function validate(data) { return ( typeof data === "string" && data.length > 0 && data !== EMPTY_FINGERPRINT ); } function hexString(hash) { const buf = []; for (let i = 0, ii = hash.length; i < ii; i++) { const hex = hash[i].toString(16); buf.push(hex.padStart(2, "0")); } return buf.join(""); } const idArray = this.xref.trailer.get("ID"); let hashOriginal, hashModified; if (Array.isArray(idArray) && validate(idArray[0])) { hashOriginal = stringToBytes(idArray[0]); if (idArray[1] !== idArray[0] && validate(idArray[1])) { hashModified = stringToBytes(idArray[1]); } } else { hashOriginal = calculateMD5( this.stream.getByteRange(0, FINGERPRINT_FIRST_BYTES), 0, FINGERPRINT_FIRST_BYTES ); } return shadow(this, "fingerprints", [ hexString(hashOriginal), hashModified ? hexString(hashModified) : null, ]); } _getLinearizationPage(pageIndex) { const { catalog, linearization } = this; if ( typeof PDFJSDev === "undefined" || PDFJSDev.test("!PRODUCTION || TESTING") ) { assert( linearization && linearization.pageFirst === pageIndex, "_getLinearizationPage - invalid pageIndex argument." ); } const ref = Ref.get(linearization.objectNumberFirst, 0); return this.xref .fetchAsync(ref) .then(obj => { // Ensure that the object that was found is actually a Page dictionary. if ( isDict(obj, "Page") || (isDict(obj) && !obj.has("Type") && obj.has("Contents")) ) { if (ref && !catalog.pageKidsCountCache.has(ref)) { catalog.pageKidsCountCache.put(ref, 1); // Cache the Page reference. } return [obj, ref]; } throw new FormatError( "The Linearization dictionary doesn't point " + "to a valid Page dictionary." ); }) .catch(reason => { info(reason); return catalog.getPageDict(pageIndex); }); } getPage(pageIndex) { if (this._pagePromises[pageIndex] !== undefined) { return this._pagePromises[pageIndex]; } const { catalog, linearization } = this; if (this.xfaFactory) { return Promise.resolve( new Page({ pdfManager: this.pdfManager, xref: this.xref, pageIndex, pageDict: Dict.empty, ref: null, globalIdFactory: this._globalIdFactory, fontCache: catalog.fontCache, builtInCMapCache: catalog.builtInCMapCache, standardFontDataCache: catalog.standardFontDataCache, globalImageCache: catalog.globalImageCache, nonBlendModesSet: catalog.nonBlendModesSet, xfaFactory: this.xfaFactory, }) ); } const promise = linearization && linearization.pageFirst === pageIndex ? this._getLinearizationPage(pageIndex) : catalog.getPageDict(pageIndex); return (this._pagePromises[pageIndex] = promise.then(([pageDict, ref]) => { return new Page({ pdfManager: this.pdfManager, xref: this.xref, pageIndex, pageDict, ref, globalIdFactory: this._globalIdFactory, fontCache: catalog.fontCache, builtInCMapCache: catalog.builtInCMapCache, standardFontDataCache: catalog.standardFontDataCache, globalImageCache: catalog.globalImageCache, nonBlendModesSet: catalog.nonBlendModesSet, xfaFactory: null, }); })); } checkFirstPage() { return this.getPage(0).catch(async reason => { if (reason instanceof XRefEntryException) { // Clear out the various caches to ensure that we haven't stored any // inconsistent and/or incorrect state, since that could easily break // subsequent `this.getPage` calls. this._pagePromises.length = 0; await this.cleanup(); throw new XRefParseException(); } }); } fontFallback(id, handler) { return this.catalog.fontFallback(id, handler); } async cleanup(manuallyTriggered = false) { return this.catalog ? this.catalog.cleanup(manuallyTriggered) : clearPrimitiveCaches(); } /** * @private */ _collectFieldObjects(name, fieldRef, promises) { const field = this.xref.fetchIfRef(fieldRef); if (field.has("T")) { const partName = stringToPDFString(field.get("T")); if (name === "") { name = partName; } else { name = `${name}.${partName}`; } } if (!promises.has(name)) { promises.set(name, []); } promises.get(name).push( AnnotationFactory.create( this.xref, fieldRef, this.pdfManager, this._localIdFactory, /* collectFields */ true ) .then(annotation => annotation && annotation.getFieldObject()) .catch(function (reason) { warn(`_collectFieldObjects: "${reason}".`); return null; }) ); if (field.has("Kids")) { const kids = field.get("Kids"); for (const kid of kids) { this._collectFieldObjects(name, kid, promises); } } } get fieldObjects() { if (!this.formInfo.hasFields) { return shadow(this, "fieldObjects", Promise.resolve(null)); } const allFields = Object.create(null); const fieldPromises = new Map(); for (const fieldRef of this.catalog.acroForm.get("Fields")) { this._collectFieldObjects("", fieldRef, fieldPromises); } const allPromises = []; for (const [name, promises] of fieldPromises) { allPromises.push( Promise.all(promises).then(fields => { fields = fields.filter(field => !!field); if (fields.length > 0) { allFields[name] = fields; } }) ); } return shadow( this, "fieldObjects", Promise.all(allPromises).then(() => allFields) ); } get hasJSActions() { const promise = this.pdfManager.ensureDoc("_parseHasJSActions"); return shadow(this, "hasJSActions", promise); } /** * @private */ async _parseHasJSActions() { const [catalogJsActions, fieldObjects] = await Promise.all([ this.pdfManager.ensureCatalog("jsActions"), this.pdfManager.ensureDoc("fieldObjects"), ]); if (catalogJsActions) { return true; } if (fieldObjects) { return Object.values(fieldObjects).some(fieldObject => fieldObject.some(object => object.actions !== null) ); } return false; } get calculationOrderIds() { const acroForm = this.catalog.acroForm; if (!acroForm || !acroForm.has("CO")) { return shadow(this, "calculationOrderIds", null); } const calculationOrder = acroForm.get("CO"); if (!Array.isArray(calculationOrder) || calculationOrder.length === 0) { return shadow(this, "calculationOrderIds", null); } const ids = calculationOrder.filter(isRef).map(ref => ref.toString()); if (ids.length === 0) { return shadow(this, "calculationOrderIds", null); } return shadow(this, "calculationOrderIds", ids); } } export { Page, PDFDocument };