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/*
* Copyright 2015 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "src/pdf/SkPDFMetadata.h"
#include "include/private/base/SkTo.h"
#include "src/base/SkUTF.h"
#include "src/base/SkUtils.h"
#include "src/core/SkMD5.h"
#include "src/pdf/SkPDFTypes.h"
#include <utility>
static constexpr SkTime::DateTime kZeroTime = {0, 0, 0, 0, 0, 0, 0, 0};
static bool operator!=(const SkTime::DateTime& u, const SkTime::DateTime& v) {
return u.fTimeZoneMinutes != v.fTimeZoneMinutes ||
u.fYear != v.fYear ||
u.fMonth != v.fMonth ||
u.fDayOfWeek != v.fDayOfWeek ||
u.fDay != v.fDay ||
u.fHour != v.fHour ||
u.fMinute != v.fMinute ||
u.fSecond != v.fSecond;
}
static SkString pdf_date(const SkTime::DateTime& dt) {
int timeZoneMinutes = SkToInt(dt.fTimeZoneMinutes);
char timezoneSign = timeZoneMinutes >= 0 ? '+' : '-';
int timeZoneHours = SkTAbs(timeZoneMinutes) / 60;
timeZoneMinutes = SkTAbs(timeZoneMinutes) % 60;
return SkStringPrintf(
"D:%04u%02u%02u%02u%02u%02u%c%02d'%02d'",
static_cast<unsigned>(dt.fYear), static_cast<unsigned>(dt.fMonth),
static_cast<unsigned>(dt.fDay), static_cast<unsigned>(dt.fHour),
static_cast<unsigned>(dt.fMinute),
static_cast<unsigned>(dt.fSecond), timezoneSign, timeZoneHours,
timeZoneMinutes);
}
namespace {
static const struct {
const char* const key;
SkString SkPDF::Metadata::*const valuePtr;
} gMetadataKeys[] = {
{"Title", &SkPDF::Metadata::fTitle},
{"Author", &SkPDF::Metadata::fAuthor},
{"Subject", &SkPDF::Metadata::fSubject},
{"Keywords", &SkPDF::Metadata::fKeywords},
{"Creator", &SkPDF::Metadata::fCreator},
{"Producer", &SkPDF::Metadata::fProducer},
};
} // namespace
std::unique_ptr<SkPDFObject> SkPDFMetadata::MakeDocumentInformationDict(
const SkPDF::Metadata& metadata) {
auto dict = SkPDFMakeDict();
for (const auto keyValuePtr : gMetadataKeys) {
const SkString& value = metadata.*(keyValuePtr.valuePtr);
if (value.size() > 0) {
dict->insertTextString(keyValuePtr.key, value);
}
}
if (metadata.fCreation != kZeroTime) {
dict->insertTextString("CreationDate", pdf_date(metadata.fCreation));
}
if (metadata.fModified != kZeroTime) {
dict->insertTextString("ModDate", pdf_date(metadata.fModified));
}
return std::move(dict);
}
SkUUID SkPDFMetadata::CreateUUID(const SkPDF::Metadata& metadata) {
// The main requirement is for the UUID to be unique; the exact
// format of the data that will be hashed is not important.
SkMD5 md5;
const char uuidNamespace[] = "org.skia.pdf\n";
md5.writeText(uuidNamespace);
double msec = SkTime::GetMSecs();
md5.write(&msec, sizeof(msec));
SkTime::DateTime dateTime;
SkTime::GetDateTime(&dateTime);
md5.write(&dateTime, sizeof(dateTime));
md5.write(&metadata.fCreation, sizeof(metadata.fCreation));
md5.write(&metadata.fModified, sizeof(metadata.fModified));
for (const auto keyValuePtr : gMetadataKeys) {
md5.writeText(keyValuePtr.key);
md5.write("\037", 1);
const SkString& value = metadata.*(keyValuePtr.valuePtr);
md5.write(value.c_str(), value.size());
md5.write("\036", 1);
}
SkMD5::Digest digest = md5.finish();
// See RFC 4122, page 6-7.
digest.data[6] = (digest.data[6] & 0x0F) | 0x30;
digest.data[8] = (digest.data[6] & 0x3F) | 0x80;
static_assert(sizeof(digest) == sizeof(SkUUID), "uuid_size");
SkUUID uuid;
memcpy((void*)&uuid, &digest, sizeof(digest));
return uuid;
}
std::unique_ptr<SkPDFObject> SkPDFMetadata::MakePdfId(const SkUUID& doc, const SkUUID& instance) {
// /ID [ <81b14aafa313db63dbd6f981e49f94f4>
// <81b14aafa313db63dbd6f981e49f94f4> ]
auto array = SkPDFMakeArray();
static_assert(sizeof(SkUUID) == 16, "uuid_size");
array->appendByteString(SkString(reinterpret_cast<const char*>(&doc ), sizeof(SkUUID)));
array->appendByteString(SkString(reinterpret_cast<const char*>(&instance), sizeof(SkUUID)));
return std::move(array);
}
// Convert a block of memory to hexadecimal. Input and output pointers will be
// moved to end of the range.
static void hexify(const uint8_t** inputPtr, char** outputPtr, int count) {
SkASSERT(inputPtr && *inputPtr);
SkASSERT(outputPtr && *outputPtr);
while (count-- > 0) {
uint8_t value = *(*inputPtr)++;
*(*outputPtr)++ = SkHexadecimalDigits::gLower[value >> 4];
*(*outputPtr)++ = SkHexadecimalDigits::gLower[value & 0xF];
}
}
static SkString uuid_to_string(const SkUUID& uuid) {
// 8-4-4-4-12
char buffer[36]; // [32 + 4]
char* ptr = buffer;
const uint8_t* data = uuid.fData;
hexify(&data, &ptr, 4);
*ptr++ = '-';
hexify(&data, &ptr, 2);
*ptr++ = '-';
hexify(&data, &ptr, 2);
*ptr++ = '-';
hexify(&data, &ptr, 2);
*ptr++ = '-';
hexify(&data, &ptr, 6);
SkASSERT(ptr == buffer + 36);
SkASSERT(data == uuid.fData + 16);
return SkString(buffer, 36);
}
namespace {
class PDFXMLObject final : public SkPDFObject {
public:
PDFXMLObject(SkString xml) : fXML(std::move(xml)) {}
void emitObject(SkWStream* stream) const override {
SkPDFDict dict("Metadata");
dict.insertName("Subtype", "XML");
dict.insertInt("Length", fXML.size());
dict.emitObject(stream);
static const char streamBegin[] = " stream\n";
stream->writeText(streamBegin);
// Do not compress this. The standard requires that a
// program that does not understand PDF can grep for
// "<?xpacket" and extract the entire XML.
stream->write(fXML.c_str(), fXML.size());
static const char streamEnd[] = "\nendstream";
stream->writeText(streamEnd);
}
private:
const SkString fXML;
};
} // namespace
static int count_xml_escape_size(const SkString& input) {
int extra = 0;
for (size_t i = 0; i < input.size(); ++i) {
if (input[i] == '&') {
extra += 4; // strlen("&amp;") - strlen("&")
} else if (input[i] == '<') {
extra += 3; // strlen("&lt;") - strlen("<")
}
}
return extra;
}
SkString escape_xml(const SkString& input,
const char* before = nullptr,
const char* after = nullptr) {
if (input.size() == 0) {
return input;
}
// "&" --> "&amp;" and "<" --> "&lt;"
// text is assumed to be in UTF-8
// all strings are xml content, not attribute values.
size_t beforeLen = before ? strlen(before) : 0;
size_t afterLen = after ? strlen(after) : 0;
int extra = count_xml_escape_size(input);
SkString output(input.size() + extra + beforeLen + afterLen);
char* out = output.data();
if (before) {
strncpy(out, before, beforeLen);
out += beforeLen;
}
static const char kAmp[] = "&amp;";
static const char kLt[] = "&lt;";
for (size_t i = 0; i < input.size(); ++i) {
if (input[i] == '&') {
memcpy(out, kAmp, strlen(kAmp));
out += strlen(kAmp);
} else if (input[i] == '<') {
memcpy(out, kLt, strlen(kLt));
out += strlen(kLt);
} else {
*out++ = input[i];
}
}
if (after) {
strncpy(out, after, afterLen);
out += afterLen;
}
// Validate that we haven't written outside of our string.
SkASSERT(out == &output.data()[output.size()]);
*out = '\0';
return output;
}
SkPDFIndirectReference SkPDFMetadata::MakeXMPObject(
const SkPDF::Metadata& metadata,
const SkUUID& doc,
const SkUUID& instance,
SkPDFDocument* docPtr) {
static const char templateString[] =
"<?xpacket begin=\"\" id=\"W5M0MpCehiHzreSzNTczkc9d\"?>\n"
"<x:xmpmeta xmlns:x=\"adobe:ns:meta/\"\n"
" x:xmptk=\"Adobe XMP Core 5.4-c005 78.147326, "
"2012/08/23-13:03:03\">\n"
"<rdf:RDF "
"xmlns:rdf=\"http://www.w3.org/1999/02/22-rdf-syntax-ns#\">\n"
"<rdf:Description rdf:about=\"\"\n"
" xmlns:xmp=\"http://ns.adobe.com/xap/1.0/\"\n"
" xmlns:dc=\"http://purl.org/dc/elements/1.1/\"\n"
" xmlns:xmpMM=\"http://ns.adobe.com/xap/1.0/mm/\"\n"
" xmlns:pdf=\"http://ns.adobe.com/pdf/1.3/\"\n"
" xmlns:pdfaid=\"http://www.aiim.org/pdfa/ns/id/\">\n"
"<pdfaid:part>2</pdfaid:part>\n"
"<pdfaid:conformance>B</pdfaid:conformance>\n"
"%s" // ModifyDate
"%s" // CreateDate
"%s" // xmp:CreatorTool
"<dc:format>application/pdf</dc:format>\n"
"%s" // dc:title
"%s" // dc:description
"%s" // author
"%s" // keywords
"<xmpMM:DocumentID>uuid:%s</xmpMM:DocumentID>\n"
"<xmpMM:InstanceID>uuid:%s</xmpMM:InstanceID>\n"
"%s" // pdf:Producer
"%s" // pdf:Keywords
"</rdf:Description>\n"
"</rdf:RDF>\n"
"</x:xmpmeta>\n" // Note: the standard suggests 4k of padding.
"<?xpacket end=\"w\"?>\n";
SkString creationDate;
SkString modificationDate;
if (metadata.fCreation != kZeroTime) {
SkString tmp;
metadata.fCreation.toISO8601(&tmp);
SkASSERT(0 == count_xml_escape_size(tmp));
// YYYY-mm-ddTHH:MM:SS[+|-]ZZ:ZZ; no need to escape
creationDate = SkStringPrintf("<xmp:CreateDate>%s</xmp:CreateDate>\n",
tmp.c_str());
}
if (metadata.fModified != kZeroTime) {
SkString tmp;
metadata.fModified.toISO8601(&tmp);
SkASSERT(0 == count_xml_escape_size(tmp));
modificationDate = SkStringPrintf(
"<xmp:ModifyDate>%s</xmp:ModifyDate>\n", tmp.c_str());
}
SkString title =
escape_xml(metadata.fTitle,
"<dc:title><rdf:Alt><rdf:li xml:lang=\"x-default\">",
"</rdf:li></rdf:Alt></dc:title>\n");
SkString author =
escape_xml(metadata.fAuthor, "<dc:creator><rdf:Seq><rdf:li>",
"</rdf:li></rdf:Seq></dc:creator>\n");
// TODO: in theory, XMP can support multiple authors. Split on a delimiter?
SkString subject = escape_xml(
metadata.fSubject,
"<dc:description><rdf:Alt><rdf:li xml:lang=\"x-default\">",
"</rdf:li></rdf:Alt></dc:description>\n");
SkString keywords1 =
escape_xml(metadata.fKeywords, "<dc:subject><rdf:Bag><rdf:li>",
"</rdf:li></rdf:Bag></dc:subject>\n");
SkString keywords2 = escape_xml(metadata.fKeywords, "<pdf:Keywords>",
"</pdf:Keywords>\n");
// TODO: in theory, keywords can be a list too.
SkString producer = escape_xml(metadata.fProducer, "<pdf:Producer>", "</pdf:Producer>\n");
SkString creator = escape_xml(metadata.fCreator, "<xmp:CreatorTool>",
"</xmp:CreatorTool>\n");
SkString documentID = uuid_to_string(doc); // no need to escape
SkASSERT(0 == count_xml_escape_size(documentID));
SkString instanceID = uuid_to_string(instance);
SkASSERT(0 == count_xml_escape_size(instanceID));
auto value = SkStringPrintf(
templateString, modificationDate.c_str(), creationDate.c_str(),
creator.c_str(), title.c_str(), subject.c_str(), author.c_str(),
keywords1.c_str(), documentID.c_str(), instanceID.c_str(),
producer.c_str(), keywords2.c_str());
std::unique_ptr<SkPDFDict> dict = SkPDFMakeDict("Metadata");
dict->insertName("Subtype", "XML");
return SkPDFStreamOut(std::move(dict),
SkMemoryStream::MakeCopy(value.c_str(), value.size()),
docPtr, SkPDFSteamCompressionEnabled::No);
}
#undef SKPDF_CUSTOM_PRODUCER_KEY
#undef SKPDF_PRODUCER
#undef SKPDF_STRING
#undef SKPDF_STRING_IMPL