//======================================================================== // // pdfinfo.cc // // Copyright 1998-2003 Glyph & Cog, LLC // Copyright 2013 Igalia S.L. // //======================================================================== //======================================================================== // // Modified under the Poppler project - http://poppler.freedesktop.org // // All changes made under the Poppler project to this file are licensed // under GPL version 2 or later // // Copyright (C) 2006 Dom Lachowicz // Copyright (C) 2007-2010, 2012, 2016-2019 Albert Astals Cid // Copyright (C) 2010 Hib Eris // Copyright (C) 2011 Vittal Aithal // Copyright (C) 2012, 2013, 2016-2018 Adrian Johnson // Copyright (C) 2012 Fabio D'Urso // Copyright (C) 2013 Adrian Perez de Castro // Copyright (C) 2013 Suzuki Toshiya // Copyright (C) 2018 Klarälvdalens Datakonsult AB, a KDAB Group company, . Work sponsored by the LiMux project of the city of Munich // Copyright (C) 2018 Adam Reichold // Copyright (C) 2018 Evangelos Rigas // Copyright (C) 2019 Christian Persch // Copyright (C) 2019 Oliver Sander // Copyright (C) 2019 Thomas Fischer // // To see a description of the changes please see the Changelog file that // came with your tarball or type make ChangeLog if you are building from git // //======================================================================== #include "config.h" #include #include #include #include #include #include #include #include #include "parseargs.h" #include "printencodings.h" #include "goo/GooString.h" #include "goo/gfile.h" #include "goo/glibc.h" #include "goo/gmem.h" #include "GlobalParams.h" #include "Object.h" #include "Stream.h" #include "Array.h" #include "Dict.h" #include "XRef.h" #include "Catalog.h" #include "Page.h" #include "PDFDoc.h" #include "PDFDocFactory.h" #include "CharTypes.h" #include "UnicodeMap.h" #include "UTF.h" #include "Error.h" #include "DateInfo.h" #include "JSInfo.h" #include "StructTreeRoot.h" #include "StructElement.h" #include "Win32Console.h" static int firstPage = 1; static int lastPage = 0; static bool printBoxes = false; static bool printMetadata = false; static bool printJS = false; static bool isoDates = false; static bool rawDates = false; static char textEncName[128] = ""; static char ownerPassword[33] = "\001"; static char userPassword[33] = "\001"; static bool printVersion = false; static bool printHelp = false; static bool printEnc = false; static bool printStructure = false; static bool printStructureText = false; static bool printDests = false; static const ArgDesc argDesc[] = { {"-f", argInt, &firstPage, 0, "first page to convert"}, {"-l", argInt, &lastPage, 0, "last page to convert"}, {"-box", argFlag, &printBoxes, 0, "print the page bounding boxes"}, {"-meta", argFlag, &printMetadata, 0, "print the document metadata (XML)"}, {"-js", argFlag, &printJS, 0, "print all JavaScript in the PDF"}, {"-struct", argFlag, &printStructure, 0, "print the logical document structure (for tagged files)"}, {"-struct-text", argFlag, &printStructureText, 0, "print text contents along with document structure (for tagged files)"}, {"-isodates", argFlag, &isoDates, 0, "print the dates in ISO-8601 format"}, {"-rawdates", argFlag, &rawDates, 0, "print the undecoded date strings directly from the PDF file"}, {"-dests", argFlag, &printDests, 0, "print all named destinations in the PDF"}, {"-enc", argString, textEncName, sizeof(textEncName), "output text encoding name"}, {"-listenc",argFlag, &printEnc, 0, "list available encodings"}, {"-opw", argString, ownerPassword, sizeof(ownerPassword), "owner password (for encrypted files)"}, {"-upw", argString, userPassword, sizeof(userPassword), "user password (for encrypted files)"}, {"-v", argFlag, &printVersion, 0, "print copyright and version info"}, {"-h", argFlag, &printHelp, 0, "print usage information"}, {"-help", argFlag, &printHelp, 0, "print usage information"}, {"--help", argFlag, &printHelp, 0, "print usage information"}, {"-?", argFlag, &printHelp, 0, "print usage information"}, {} }; static void printInfoString(Dict *infoDict, const char *key, const char *text, UnicodeMap *uMap) { const GooString *s1; Unicode *u; char buf[8]; int i, n, len; Object obj = infoDict->lookup(key); if (obj.isString()) { fputs(text, stdout); s1 = obj.getString(); len = TextStringToUCS4(s1, &u); for (i = 0; i < len; i++) { n = uMap->mapUnicode(u[i], buf, sizeof(buf)); fwrite(buf, 1, n, stdout); } gfree(u); fputc('\n', stdout); } } static void printInfoDate(Dict *infoDict, const char *key, const char *text) { const char *s; int year, mon, day, hour, min, sec, tz_hour, tz_minute; char tz; struct tm tmStruct; time_t time; char buf[256]; Object obj = infoDict->lookup(key); if (obj.isString()) { fputs(text, stdout); s = obj.getString()->c_str(); // TODO do something with the timezone info if ( parseDateString( s, &year, &mon, &day, &hour, &min, &sec, &tz, &tz_hour, &tz_minute ) ) { tmStruct.tm_year = year - 1900; tmStruct.tm_mon = mon - 1; tmStruct.tm_mday = day; tmStruct.tm_hour = hour; tmStruct.tm_min = min; tmStruct.tm_sec = sec; tmStruct.tm_wday = -1; tmStruct.tm_yday = -1; tmStruct.tm_isdst = -1; // compute the tm_wday and tm_yday fields time = timegm(&tmStruct); if (time != (time_t)-1) { int offset = (tz_hour*60 + tz_minute)*60; if (tz == '-') offset *= -1; time -= offset; localtime_r(&time, &tmStruct); strftime(buf, sizeof(buf), "%c %Z", &tmStruct); fputs(buf, stdout); } else { fputs(s, stdout); } } else { fputs(s, stdout); } fputc('\n', stdout); } } static void printISODate(Dict *infoDict, const char *key, const char *text) { const char *s; int year, mon, day, hour, min, sec, tz_hour, tz_minute; char tz; Object obj = infoDict->lookup(key); if (obj.isString()) { fputs(text, stdout); s = obj.getString()->c_str(); if ( parseDateString( s, &year, &mon, &day, &hour, &min, &sec, &tz, &tz_hour, &tz_minute ) ) { fprintf(stdout, "%04d-%02d-%02dT%02d:%02d:%02d", year, mon, day, hour, min, sec); if (tz_hour == 0 && tz_minute == 0) { fprintf(stdout, "Z"); } else { fprintf(stdout, "%c%02d", tz, tz_hour); if (tz_minute) fprintf(stdout, ":%02d", tz_minute); } } else { fputs(s, stdout); } fputc('\n', stdout); } } static void printBox(const char *text, const PDFRectangle *box) { printf("%s%8.2f %8.2f %8.2f %8.2f\n", text, box->x1, box->y1, box->x2, box->y2); } static void printIndent(unsigned indent) { while (indent--) { putchar(' '); putchar(' '); } } static void printAttribute(const Attribute *attribute, unsigned indent) { printIndent(indent); printf(" /%s ", attribute->getTypeName()); if (attribute->getType() == Attribute::UserProperty) { GooString *name = attribute->getName(); printf("(%s) ", name->c_str()); delete name; } attribute->getValue()->print(stdout); if (attribute->getFormattedValue()) { printf(" \"%s\"", attribute->getFormattedValue()); } if (attribute->isHidden()) { printf(" [hidden]"); } } static void printStruct(const StructElement *element, unsigned indent) { if (element->isObjectRef()) { printIndent(indent); printf("Object %i %i\n", element->getObjectRef().num, element->getObjectRef().gen); return; } if (printStructureText && element->isContent()) { GooString *text = element->getText(false); printIndent(indent); if (text) { printf("\"%s\"\n", text->c_str()); } else { printf("(No content?)\n"); } delete text; } if (!element->isContent()) { printIndent(indent); printf("%s", element->getTypeName()); if (element->getID()) { printf(" <%s>", element->getID()->c_str()); } if (element->getTitle()) { printf(" \"%s\"", element->getTitle()->c_str()); } if (element->getRevision() > 0) { printf(" r%u", element->getRevision()); } if (element->isInline() || element->isBlock()) { printf(" (%s)", element->isInline() ? "inline" : "block"); } if (element->getNumAttributes()) { putchar(':'); for (unsigned i = 0; i < element->getNumAttributes(); i++) { putchar('\n'); printAttribute(element->getAttribute(i), indent + 1); } } putchar('\n'); for (unsigned i = 0; i < element->getNumChildren(); i++) { printStruct(element->getChild(i), indent + 1); } } } struct GooStringCompare { bool operator() (GooString* lhs, GooString* rhs) const { return lhs->cmp(const_cast(rhs)) < 0; } }; static void printLinkDest(LinkDest *dest) { GooString s; switch (dest->getKind()) { case destXYZ: s.append("[ XYZ "); if (dest->getChangeLeft()) { s.appendf("{0:4.0g} ", dest->getLeft()); } else { s.append("null "); } if (dest->getChangeTop()) { s.appendf("{0:4.0g} ", dest->getTop()); } else { s.append("null "); } if (dest->getChangeZoom()) { s.appendf("{0:4.2f} ", dest->getZoom()); } else { s.append("null "); } break; case destFit: s.append("[ Fit "); break; case destFitH: if (dest->getChangeTop()) { s.appendf("[ FitH {0:4.0g} ", dest->getTop()); } else { s.append("[ FitH null "); } break; case destFitV: if (dest->getChangeLeft()) { s.appendf("[ FitV {0:4.0g} ", dest->getLeft()); } else { s.append("[ FitV null "); } break; case destFitR: s.appendf("[ FitR {0:4.0g} {1:4.0g} {2:4.0g} {3:4.0g} ", dest->getLeft(), dest->getBottom(), dest->getRight(), dest->getTop()); break; case destFitB: s.append("[ FitB "); break; case destFitBH: if (dest->getChangeTop()) { s.appendf("[ FitBH {0:4.0g} ", dest->getTop()); } else { s.append("[ FitBH null "); } break; case destFitBV: if (dest->getChangeLeft()) { s.appendf("[ FitBV {0:4.0g} ", dest->getLeft()); } else { s.append("[ FitBV null "); } break; } s.append(" "); s.setChar(26, ']'); s.setChar(27, '\0'); printf("%s", s.c_str()); } static void printDestinations(PDFDoc *doc, UnicodeMap *uMap) { std::map > map; int numDests = doc->getCatalog()->numDestNameTree(); for (int i = 0; i < numDests; i++) { GooString *name = new GooString(doc->getCatalog()->getDestNameTreeName(i)); LinkDest *dest = doc->getCatalog()->getDestNameTreeDest(i); if (dest && dest->isPageRef()) { map[dest->getPageRef()].insert(std::make_pair(name, dest)); } else { delete name; delete dest; } } numDests = doc->getCatalog()->numDests(); for (int i = 0; i < numDests; i++) { GooString *name = new GooString(doc->getCatalog()->getDestsName(i)); LinkDest *dest = doc->getCatalog()->getDestsDest(i); if (dest && dest->isPageRef()) { map[dest->getPageRef()].insert(std::make_pair(name, dest)); } else { delete name; delete dest; } } printf("Page Destination Name\n"); for (int i = firstPage; i <= lastPage; i++) { Ref *ref = doc->getCatalog()->getPageRef(i); if (ref) { auto pageDests = map.find(*ref); if (pageDests != map.end()) { for (auto& it: pageDests->second) { printf("%4d ", i); printLinkDest(it.second); printf(" \""); Unicode *u; char buf[8]; const int len = TextStringToUCS4(it.first, &u); for (int j = 0; j < len; j++) { const int n = uMap->mapUnicode(u[j], buf, sizeof(buf)); fwrite(buf, 1, n, stdout); } gfree(u); printf("\"\n"); delete it.first; delete it.second; } } } } } static void printPdfSubtype(PDFDoc *doc, UnicodeMap *uMap) { const Object info = doc->getDocInfo(); if (info.isDict()) { const PDFSubtype pdftype = doc->getPDFSubtype(); if ((pdftype == subtypeNull) | (pdftype == subtypeNone)) { return; } std::unique_ptr part; std::unique_ptr abbr; std::unique_ptr standard; std::unique_ptr typeExp; std::unique_ptr confExp; // Form title from PDFSubtype switch (pdftype) { case subtypePDFA: printInfoString(info.getDict(), "GTS_PDFA1Version", "PDF subtype: ", uMap); typeExp = std::make_unique("ISO 19005 - Electronic document file format for long-term preservation (PDF/A)"); standard = std::make_unique("ISO 19005"); abbr = std::make_unique("PDF/A"); break; case subtypePDFE: printInfoString(info.getDict(), "GTS_PDFEVersion", "PDF subtype: ", uMap); typeExp = std::make_unique("ISO 24517 - Engineering document format using PDF (PDF/E)"); standard = std::make_unique("ISO 24517"); abbr = std::make_unique("PDF/E"); break; case subtypePDFUA: printInfoString(info.getDict(), "GTS_PDFUAVersion", "PDF subtype: ", uMap); typeExp = std::make_unique("ISO 14289 - Electronic document file format enhancement for accessibility (PDF/UA)"); standard = std::make_unique("ISO 14289"); abbr = std::make_unique("PDF/UA"); break; case subtypePDFVT: printInfoString(info.getDict(), "GTS_PDFVTVersion", "PDF subtype: ", uMap); typeExp = std::make_unique("ISO 16612 - Electronic document file format for variable data exchange (PDF/VT)"); standard = std::make_unique("ISO 16612"); abbr = std::make_unique("PDF/VT"); break; case subtypePDFX: printInfoString(info.getDict(), "GTS_PDFXVersion", "PDF subtype: ", uMap); typeExp = std::make_unique("ISO 15930 - Electronic document file format for prepress digital data exchange (PDF/X)"); standard = std::make_unique("ISO 15930"); abbr = std::make_unique("PDF/X"); break; case subtypeNone: case subtypeNull: default: return; } // Form the abbreviation from PDFSubtypePart and PDFSubtype const PDFSubtypePart subpart = doc->getPDFSubtypePart(); switch (pdftype) { case subtypePDFX: switch (subpart) { case subtypePart1: abbr->append("-1:2001"); break; case subtypePart2: abbr->append("-2"); break; case subtypePart3: abbr->append("-3:2002"); break; case subtypePart4: abbr->append("-1:2003"); break; case subtypePart5: abbr->append("-2"); break; case subtypePart6: abbr->append("-3:2003"); break; case subtypePart7: abbr->append("-4"); break; case subtypePart8: abbr->append("-5"); break; default: break; } break; case subtypeNone: case subtypeNull: break; default: abbr->appendf("-{0:d}", subpart); break; } // Form standard from PDFSubtypePart switch (subpart) { case subtypePartNone: case subtypePartNull: break; default: standard->appendf("-{0:d}", subpart); break; } // Form the subtitle from PDFSubtypePart and PDFSubtype switch (pdftype) { case subtypePDFA: switch (subpart) { case subtypePart1: part = std::make_unique("Use of PDF 1.4"); break; case subtypePart2: part = std::make_unique("Use of ISO 32000-1"); break; case subtypePart3: part = std::make_unique("Use of ISO 32000-1 with support for embedded files"); break; default: break; } break; case subtypePDFE: switch (subpart) { case subtypePart1: part = std::make_unique("Use of PDF 1.6"); break; default: break; } break; case subtypePDFUA: switch (subpart) { case subtypePart1: part = std::make_unique("Use of ISO 32000-1"); break; case subtypePart2: part = std::make_unique("Use of ISO 32000-2"); break; case subtypePart3: part = std::make_unique("Use of ISO 32000-1 with support for embedded files"); break; default: break; } break; case subtypePDFVT: switch (subpart) { case subtypePart1: part = std::make_unique("Using PPML 2.1 and PDF 1.4"); break; case subtypePart2: part = std::make_unique("Using PDF/X-4 and PDF/X-5 (PDF/VT-1 and PDF/VT-2)"); break; case subtypePart3: part = std::make_unique("Using PDF/X-6 (PDF/VT-3)"); break; default: break; } break; case subtypePDFX: switch (subpart) { case subtypePart1: part = std::make_unique("Complete exchange using CMYK data (PDF/X-1 and PDF/X-1a)"); break; case subtypePart3: part = std::make_unique("Complete exchange suitable for colour-managed workflows (PDF/X-3)"); break; case subtypePart4: part = std::make_unique("Complete exchange of CMYK and spot colour printing data using PDF 1.4 (PDF/X-1a)"); break; case subtypePart5: part = std::make_unique("Partial exchange of printing data using PDF 1.4 (PDF/X-2) [Withdrawn]"); break; case subtypePart6: part = std::make_unique("Complete exchange of printing data suitable for colour-managed workflows using PDF 1.4 (PDF/X-3)"); break; case subtypePart7: part = std::make_unique("Complete exchange of printing data (PDF/X-4) and partial exchange of printing data with external profile reference (PDF/X-4p) using PDF 1.6"); break; case subtypePart8: part = std::make_unique("Partial exchange of printing data using PDF 1.6 (PDF/X-5)"); break; default: break; } break; default: break; } // Form Conformance explanation from PDFSubtypeConformance switch (doc->getPDFSubtypeConformance()) { case subtypeConfA: confExp = std::make_unique("Level A, Accessible"); break; case subtypeConfB: confExp = std::make_unique("Level B, Basic"); break; case subtypeConfG: confExp = std::make_unique("Level G, External graphical content"); break; case subtypeConfN: confExp = std::make_unique("Level N, External ICC profile"); break; case subtypeConfP: confExp = std::make_unique("Level P, Embedded ICC profile"); break; case subtypeConfPG: confExp = std::make_unique("Level PG, Embedded ICC profile and external graphical content"); break; case subtypeConfU: confExp = std::make_unique("Level U, Unicode support"); break; case subtypeConfNone: case subtypeConfNull: default: confExp.reset(); break; } printf(" Title: %s\n",typeExp->c_str()); printf(" Abbreviation: %s\n", abbr->c_str()); if (part.get()) printf(" Subtitle: Part %d: %s\n", subpart, part->c_str()); else printf(" Subtitle: Part %d\n", subpart); printf(" Standard: %s-%d\n", typeExp->toStr().substr(0,9).c_str(), subpart); if (confExp.get()) printf(" Conformance: %s\n", confExp->c_str()); } } static void printInfo(PDFDoc *doc, UnicodeMap *uMap, long long filesize, bool multiPage) { Page *page; char buf[256]; double w, h, wISO, hISO, isoThreshold; int pg, i; int r; // print doc info Object info = doc->getDocInfo(); if (info.isDict()) { printInfoString(info.getDict(), "Title", "Title: ", uMap); printInfoString(info.getDict(), "Subject", "Subject: ", uMap); printInfoString(info.getDict(), "Keywords", "Keywords: ", uMap); printInfoString(info.getDict(), "Author", "Author: ", uMap); printInfoString(info.getDict(), "Creator", "Creator: ", uMap); printInfoString(info.getDict(), "Producer", "Producer: ", uMap); if (isoDates) { printISODate(info.getDict(), "CreationDate", "CreationDate: "); printISODate(info.getDict(), "ModDate", "ModDate: "); } else if (rawDates) { printInfoString(info.getDict(), "CreationDate", "CreationDate: ", uMap); printInfoString(info.getDict(), "ModDate", "ModDate: ", uMap); } else { printInfoDate(info.getDict(), "CreationDate", "CreationDate: "); printInfoDate(info.getDict(), "ModDate", "ModDate: "); } } // print tagging info printf("Tagged: %s\n", (doc->getCatalog()->getMarkInfo() & Catalog::markInfoMarked) ? "yes" : "no"); printf("UserProperties: %s\n", (doc->getCatalog()->getMarkInfo() & Catalog::markInfoUserProperties) ? "yes" : "no"); printf("Suspects: %s\n", (doc->getCatalog()->getMarkInfo() & Catalog::markInfoSuspects) ? "yes" : "no"); // print form info switch (doc->getCatalog()->getFormType()) { case Catalog::NoForm: printf("Form: none\n"); break; case Catalog::AcroForm: printf("Form: AcroForm\n"); break; case Catalog::XfaForm: printf("Form: XFA\n"); break; } // print javascript info { JSInfo jsInfo(doc, firstPage - 1); jsInfo.scanJS(lastPage - firstPage + 1); printf("JavaScript: %s\n", jsInfo.containsJS() ? "yes" : "no"); } // print page count printf("Pages: %d\n", doc->getNumPages()); // print encryption info printf("Encrypted: "); if (doc->isEncrypted()) { unsigned char *fileKey; CryptAlgorithm encAlgorithm; int keyLength; doc->getXRef()->getEncryptionParameters(&fileKey, &encAlgorithm, &keyLength); const char *encAlgorithmName = "unknown"; switch (encAlgorithm) { case cryptRC4: encAlgorithmName = "RC4"; break; case cryptAES: encAlgorithmName = "AES"; break; case cryptAES256: encAlgorithmName = "AES-256"; break; case cryptNone: break; } printf("yes (print:%s copy:%s change:%s addNotes:%s algorithm:%s)\n", doc->okToPrint(true) ? "yes" : "no", doc->okToCopy(true) ? "yes" : "no", doc->okToChange(true) ? "yes" : "no", doc->okToAddNotes(true) ? "yes" : "no", encAlgorithmName); } else { printf("no\n"); } // print page size for (pg = firstPage; pg <= lastPage; ++pg) { w = doc->getPageCropWidth(pg); h = doc->getPageCropHeight(pg); if (multiPage) { printf("Page %4d size: %g x %g pts", pg, w, h); } else { printf("Page size: %g x %g pts", w, h); } if ((fabs(w - 612) < 1 && fabs(h - 792) < 1) || (fabs(w - 792) < 1 && fabs(h - 612) < 1)) { printf(" (letter)"); } else { hISO = sqrt(sqrt(2.0)) * 7200 / 2.54; wISO = hISO / sqrt(2.0); isoThreshold = hISO * 0.003; ///< allow for 0.3% error when guessing conformance to ISO 216, A series for (i = 0; i <= 6; ++i) { if ((fabs(w - wISO) < isoThreshold && fabs(h - hISO) < isoThreshold) || (fabs(w - hISO) < isoThreshold && fabs(h - wISO) < isoThreshold)) { printf(" (A%d)", i); break; } hISO = wISO; wISO /= sqrt(2.0); isoThreshold /= sqrt(2.0); } } printf("\n"); r = doc->getPageRotate(pg); if (multiPage) { printf("Page %4d rot: %d\n", pg, r); } else { printf("Page rot: %d\n", r); } } // print the boxes if (printBoxes) { if (multiPage) { for (pg = firstPage; pg <= lastPage; ++pg) { page = doc->getPage(pg); if (!page) { error(errSyntaxError, -1, "Failed to print boxes for page {0:d}", pg); continue; } sprintf(buf, "Page %4d MediaBox: ", pg); printBox(buf, page->getMediaBox()); sprintf(buf, "Page %4d CropBox: ", pg); printBox(buf, page->getCropBox()); sprintf(buf, "Page %4d BleedBox: ", pg); printBox(buf, page->getBleedBox()); sprintf(buf, "Page %4d TrimBox: ", pg); printBox(buf, page->getTrimBox()); sprintf(buf, "Page %4d ArtBox: ", pg); printBox(buf, page->getArtBox()); } } else { page = doc->getPage(firstPage); if (!page) { error(errSyntaxError, -1, "Failed to print boxes for page {0:d}", firstPage); } else { printBox("MediaBox: ", page->getMediaBox()); printBox("CropBox: ", page->getCropBox()); printBox("BleedBox: ", page->getBleedBox()); printBox("TrimBox: ", page->getTrimBox()); printBox("ArtBox: ", page->getArtBox()); } } } // print file size printf("File size: %lld bytes\n", filesize); // print linearization info printf("Optimized: %s\n", doc->isLinearized() ? "yes" : "no"); // print PDF version printf("PDF version: %d.%d\n", doc->getPDFMajorVersion(), doc->getPDFMinorVersion()); printPdfSubtype(doc, uMap); } int main(int argc, char *argv[]) { PDFDoc *doc; GooString *fileName; GooString *ownerPW, *userPW; UnicodeMap *uMap; FILE *f; bool ok; int exitCode; bool multiPage; exitCode = 99; // parse args Win32Console win32console(&argc, &argv); ok = parseArgs(argDesc, &argc, argv); if (!ok || (argc != 2 && !printEnc) || printVersion || printHelp) { fprintf(stderr, "pdfinfo version %s\n", PACKAGE_VERSION); fprintf(stderr, "%s\n", popplerCopyright); fprintf(stderr, "%s\n", xpdfCopyright); if (!printVersion) { printUsage("pdfinfo", "", argDesc); } if (printVersion || printHelp) exitCode = 0; goto err0; } if (printStructureText) printStructure = true; // read config file globalParams = std::make_unique(); if (printEnc) { printEncodings(); exitCode = 0; goto err0; } fileName = new GooString(argv[1]); if (textEncName[0]) { globalParams->setTextEncoding(textEncName); } // get mapping to output encoding if (!(uMap = globalParams->getTextEncoding())) { error(errCommandLine, -1, "Couldn't get text encoding"); delete fileName; goto err1; } // open PDF file if (ownerPassword[0] != '\001') { ownerPW = new GooString(ownerPassword); } else { ownerPW = nullptr; } if (userPassword[0] != '\001') { userPW = new GooString(userPassword); } else { userPW = nullptr; } if (fileName->cmp("-") == 0) { delete fileName; fileName = new GooString("fd://0"); } doc = PDFDocFactory().createPDFDoc(*fileName, ownerPW, userPW); if (userPW) { delete userPW; } if (ownerPW) { delete ownerPW; } if (!doc->isOk()) { exitCode = 1; goto err2; } // get page range if (firstPage < 1) { firstPage = 1; } if (lastPage == 0) { multiPage = false; } else { multiPage = true; } if (lastPage < 1 || lastPage > doc->getNumPages()) { lastPage = doc->getNumPages(); } if (lastPage < firstPage) { error(errCommandLine, -1, "Wrong page range given: the first page ({0:d}) can not be after the last page ({1:d}).", firstPage, lastPage); goto err2; } if (printMetadata) { // print the metadata const GooString *metadata = doc->readMetadata(); if (metadata) { fputs(metadata->c_str(), stdout); fputc('\n', stdout); delete metadata; } } else if (printJS) { // print javascript JSInfo jsInfo(doc, firstPage - 1); jsInfo.scanJS(lastPage - firstPage + 1, stdout, uMap); } else if (printStructure || printStructureText) { // print structure const StructTreeRoot *structTree = doc->getCatalog()->getStructTreeRoot(); if (structTree) { for (unsigned i = 0; i < structTree->getNumChildren(); i++) { printStruct(structTree->getChild(i), 0); } } } else if (printDests) { printDestinations(doc, uMap); } else { // print info long long filesize = 0; f = fopen(fileName->c_str(), "rb"); if (f) { Gfseek(f, 0, SEEK_END); filesize = Gftell(f); fclose(f); } if (multiPage == false) lastPage = 1; printInfo(doc, uMap, filesize, multiPage); } exitCode = 0; // clean up err2: uMap->decRefCnt(); delete doc; delete fileName; err1: err0: return exitCode; }