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skia / third_party / poppler / refs/tags/poppler-0.73.0 / . / poppler / Form.cc
blob: 77a52072b3c446b7fec4d80fabb0c24b121a8afa [file] [log] [blame]
//========================================================================
//
// Form.cc
//
// This file is licensed under the GPLv2 or later
//
// Copyright 2006-2008 Julien Rebetez <julienr@svn.gnome.org>
// Copyright 2007-2012, 2015-2018 Albert Astals Cid <aacid@kde.org>
// Copyright 2007-2008, 2011 Carlos Garcia Campos <carlosgc@gnome.org>
// Copyright 2007, 2013, 2016 Adrian Johnson <ajohnson@redneon.com>
// Copyright 2007 Iñigo Martínez <inigomartinez@gmail.com>
// Copyright 2008, 2011 Pino Toscano <pino@kde.org>
// Copyright 2008 Michael Vrable <mvrable@cs.ucsd.edu>
// Copyright 2009 Matthias Drochner <M.Drochner@fz-juelich.de>
// Copyright 2009 KDAB via Guillermo Amaral <gamaral@amaral.com.mx>
// Copyright 2010, 2012 Mark Riedesel <mark@klowner.com>
// Copyright 2012 Fabio D'Urso <fabiodurso@hotmail.it>
// Copyright 2015 André Guerreiro <aguerreiro1985@gmail.com>
// Copyright 2015 André Esser <bepandre@hotmail.com>
// Copyright 2017 Hans-Ulrich Jüttner <huj@froreich-bioscientia.de>
// Copyright 2017 Bernd Kuhls <berndkuhls@hotmail.com>
// Copyright 2018 Andre Heinecke <aheinecke@intevation.de>
// Copyright 2018 Klarälvdalens Datakonsult AB, a KDAB Group company, <info@kdab.com>. Work sponsored by the LiMux project of the city of Munich
// Copyright 2018 Chinmoy Ranjan Pradhan <chinmoyrp65@protonmail.com>
// Copyright 2018 Adam Reichold <adam.reichold@t-online.de>
// Copyright 2018 Nelson Benítez León <nbenitezl@gmail.com>
//
//========================================================================
#include <config.h>
#include <set>
#include <limits>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include "goo/gmem.h"
#include "goo/GooString.h"
#include "Error.h"
#include "Object.h"
#include "Array.h"
#include "Dict.h"
#include "Gfx.h"
#include "Form.h"
#include "PDFDoc.h"
#include "DateInfo.h"
#ifdef ENABLE_NSS3
#include "SignatureHandler.h"
#endif
#include "SignatureInfo.h"
#include "XRef.h"
#include "PDFDocEncoding.h"
#include "Annot.h"
#include "Link.h"
#include "Lexer.h"
//return a newly allocated char* containing an UTF16BE string of size length
char* pdfDocEncodingToUTF16 (const GooString* orig, int* length)
{
//double size, a unicode char takes 2 char, add 2 for the unicode marker
*length = 2+2*orig->getLength();
char *result = new char[(*length)];
const char *cstring = orig->c_str();
//unicode marker
result[0] = (char)0xfe;
result[1] = (char)0xff;
//convert to utf16
for(int i=2,j=0; i<(*length); i+=2,j++) {
Unicode u = pdfDocEncoding[(unsigned int)((unsigned char)cstring[j])]&0xffff;
result[i] = (u >> 8) & 0xff;
result[i+1] = u & 0xff;
}
return result;
}
static GooString *convertToUtf16(GooString *pdfDocEncodingString)
{
int tmp_length;
char* tmp_str = pdfDocEncodingToUTF16(pdfDocEncodingString, &tmp_length);
delete pdfDocEncodingString;
pdfDocEncodingString = new GooString(tmp_str, tmp_length);
delete [] tmp_str;
return pdfDocEncodingString;
}
FormWidget::FormWidget(PDFDoc *docA, Object *aobj, unsigned num, Ref aref, FormField *fieldA)
{
ref = aref;
ID = 0;
childNum = num;
doc = docA;
xref = doc->getXRef();
obj = aobj->copy();
type = formUndef;
field = fieldA;
widget = nullptr;
}
FormWidget::~FormWidget()
{
if (widget)
widget->decRefCnt();
}
void FormWidget::print(int indent) {
printf ("%*s+ (%d %d): [widget]\n", indent, "", ref.num, ref.gen);
}
void FormWidget::createWidgetAnnotation() {
if (widget)
return;
Object obj1(ref.num, ref.gen);
widget = new AnnotWidget(doc, &obj, &obj1, field);
}
bool FormWidget::inRect(double x, double y) const {
return widget ? widget->inRect(x, y) : false;
}
void FormWidget::getRect(double *x1, double *y1, double *x2, double *y2) const {
if (widget)
widget->getRect(x1, y1, x2, y2);
}
bool FormWidget::isReadOnly() const
{
return field->isReadOnly();
}
void FormWidget::setReadOnly(bool value)
{
field->setReadOnly(value);
}
int FormWidget::encodeID (unsigned pageNum, unsigned fieldNum)
{
return (pageNum << 4*sizeof(unsigned)) + fieldNum;
}
void FormWidget::decodeID (unsigned id, unsigned* pageNum, unsigned* fieldNum)
{
*pageNum = id >> 4*sizeof(unsigned);
*fieldNum = (id << 4*sizeof(unsigned)) >> 4*sizeof(unsigned);
}
const GooString *FormWidget::getPartialName() const {
return field->getPartialName();
}
void FormWidget::setPartialName(const GooString &name)
{
field->setPartialName(name);
}
const GooString *FormWidget::getAlternateUiName() const {
return field->getAlternateUiName();
}
const GooString *FormWidget::getMappingName() const {
return field->getMappingName();
}
GooString *FormWidget::getFullyQualifiedName() {
return field->getFullyQualifiedName();
}
LinkAction *FormWidget::getActivationAction() {
return widget ? widget->getAction() : nullptr;
}
LinkAction *FormWidget::getAdditionalAction(Annot::FormAdditionalActionsType type) {
return widget ? widget->getFormAdditionalAction(type) : nullptr;
}
FormWidgetButton::FormWidgetButton (PDFDoc *docA, Object *aobj, unsigned num, Ref ref, FormField *p) :
FormWidget(docA, aobj, num, ref, p)
{
type = formButton;
onStr = nullptr;
// Find the name of the ON state in the AP dictionary
// The reference say the Off state, if it exists, _must_ be stored in the AP dict under the name /Off
// The "on" state may be stored under any other name
Object obj1 = obj.dictLookup("AP");
if (obj1.isDict()) {
Object obj2 = obj1.dictLookup("N");
if (obj2.isDict()) {
for (int i = 0; i < obj2.dictGetLength(); i++) {
const char *key = obj2.dictGetKey(i);
if (strcmp (key, "Off") != 0) {
onStr = new GooString (key);
break;
}
}
}
}
}
const char *FormWidgetButton::getOnStr() const {
if (onStr)
return onStr->c_str();
// 12.7.4.2.3 Check Boxes
// Yes should be used as the name for the on state
return parent()->getButtonType() == formButtonCheck ? "Yes" : nullptr;
}
FormWidgetButton::~FormWidgetButton ()
{
delete onStr;
}
FormButtonType FormWidgetButton::getButtonType () const
{
return parent()->getButtonType ();
}
void FormWidgetButton::setAppearanceState(const char *state) {
if (!widget)
return;
widget->setAppearanceState(state);
}
void FormWidgetButton::updateWidgetAppearance()
{
// The appearance stream must NOT be regenerated for this widget type
}
void FormWidgetButton::setState (bool astate)
{
//pushButtons don't have state
if (parent()->getButtonType() == formButtonPush)
return;
// Silently return if can't set ON state
if (astate && !getOnStr())
return;
parent()->setState(astate ? getOnStr() : (char *)"Off");
// Parent will call setAppearanceState()
}
bool FormWidgetButton::getState () const
{
return getOnStr() ? parent()->getState( getOnStr() ) : false;
}
FormFieldButton *FormWidgetButton::parent() const
{
return static_cast<FormFieldButton*>(field);
}
FormWidgetText::FormWidgetText (PDFDoc *docA, Object *aobj, unsigned num, Ref ref, FormField *p) :
FormWidget(docA, aobj, num, ref, p)
{
type = formText;
}
const GooString* FormWidgetText::getContent () const
{
return parent()->getContent();
}
void FormWidgetText::updateWidgetAppearance()
{
if (widget)
widget->updateAppearanceStream();
}
bool FormWidgetText::isMultiline () const
{
return parent()->isMultiline();
}
bool FormWidgetText::isPassword () const
{
return parent()->isPassword();
}
bool FormWidgetText::isFileSelect () const
{
return parent()->isFileSelect();
}
bool FormWidgetText::noSpellCheck () const
{
return parent()->noSpellCheck();
}
bool FormWidgetText::noScroll () const
{
return parent()->noScroll();
}
bool FormWidgetText::isComb () const
{
return parent()->isComb();
}
bool FormWidgetText::isRichText () const
{
return parent()->isRichText();
}
int FormWidgetText::getMaxLen () const
{
return parent()->getMaxLen ();
}
double FormWidgetText::getTextFontSize()
{
return parent()->getTextFontSize();
}
void FormWidgetText::setTextFontSize(int fontSize)
{
parent()->setTextFontSize(fontSize);
}
void FormWidgetText::setContent(const GooString* new_content)
{
parent()->setContentCopy(new_content);
}
FormFieldText *FormWidgetText::parent() const
{
return static_cast<FormFieldText*>(field);
}
FormWidgetChoice::FormWidgetChoice(PDFDoc *docA, Object *aobj, unsigned num, Ref ref, FormField *p) :
FormWidget(docA, aobj, num, ref, p)
{
type = formChoice;
}
FormWidgetChoice::~FormWidgetChoice()
{
}
bool FormWidgetChoice::_checkRange (int i) const
{
if (i < 0 || i >= parent()->getNumChoices()) {
error(errInternal, -1, "FormWidgetChoice::_checkRange i out of range : {0:d}", i);
return false;
}
return true;
}
void FormWidgetChoice::select (int i)
{
if (!_checkRange(i)) return;
parent()->select(i);
}
void FormWidgetChoice::toggle (int i)
{
if (!_checkRange(i)) return;
parent()->toggle(i);
}
void FormWidgetChoice::deselectAll ()
{
parent()->deselectAll();
}
const GooString* FormWidgetChoice::getEditChoice () const
{
if (!hasEdit()) {
error(errInternal, -1, "FormFieldChoice::getEditChoice called on a non-editable choice\n");
return nullptr;
}
return parent()->getEditChoice();
}
void FormWidgetChoice::updateWidgetAppearance()
{
if (widget)
widget->updateAppearanceStream();
}
bool FormWidgetChoice::isSelected (int i) const
{
if (!_checkRange(i)) return false;
return parent()->isSelected(i);
}
void FormWidgetChoice::setEditChoice (const GooString* new_content)
{
if (!hasEdit()) {
error(errInternal, -1, "FormFieldChoice::setEditChoice : trying to edit an non-editable choice\n");
return;
}
parent()->setEditChoice(new_content);
}
int FormWidgetChoice::getNumChoices() const
{
return parent()->getNumChoices();
}
const GooString* FormWidgetChoice::getChoice(int i) const
{
return parent()->getChoice(i);
}
bool FormWidgetChoice::isCombo () const
{
return parent()->isCombo();
}
bool FormWidgetChoice::hasEdit () const
{
return parent()->hasEdit();
}
bool FormWidgetChoice::isMultiSelect () const
{
return parent()->isMultiSelect();
}
bool FormWidgetChoice::noSpellCheck () const
{
return parent()->noSpellCheck();
}
bool FormWidgetChoice::commitOnSelChange () const
{
return parent()->commitOnSelChange();
}
bool FormWidgetChoice::isListBox () const
{
return parent()->isListBox();
}
FormFieldChoice *FormWidgetChoice::parent() const
{
return static_cast<FormFieldChoice*>(field);
}
FormWidgetSignature::FormWidgetSignature(PDFDoc *docA, Object *aobj, unsigned num, Ref ref, FormField *p) :
FormWidget(docA, aobj, num, ref, p)
{
type = formSignature;
}
const GooString *FormWidgetSignature::getSignature() const
{
return static_cast<FormFieldSignature*>(field)->getSignature();
}
SignatureInfo *FormWidgetSignature::validateSignature(bool doVerifyCert, bool forceRevalidation, time_t validationTime)
{
return static_cast<FormFieldSignature*>(field)->validateSignature(doVerifyCert, forceRevalidation, validationTime);
}
std::vector<Goffset> FormWidgetSignature::getSignedRangeBounds()
{
Object* obj = static_cast<FormFieldSignature*>(field)->getByteRange();
std::vector<Goffset> range_vec;
if (obj->isArray())
{
if (obj->arrayGetLength() == 4)
{
for (int i = 0; i < 2; ++i)
{
Object offsetObj(obj->arrayGet(2*i));
Object lenObj(obj->arrayGet(2*i+1));
if (offsetObj.isIntOrInt64() && lenObj.isIntOrInt64())
{
Goffset offset = offsetObj.getIntOrInt64();
Goffset len = lenObj.getIntOrInt64();
range_vec.push_back(offset);
range_vec.push_back(offset+len);
}
}
}
}
return range_vec;
}
GooString* FormWidgetSignature::getCheckedSignature(Goffset *checkedFileSize)
{
Goffset start = 0;
Goffset end = 0;
const std::vector<Goffset> ranges = getSignedRangeBounds();
if (ranges.size() == 4)
{
start = ranges[1];
end = ranges[2];
}
if (end >= start+6)
{
BaseStream* stream = doc->getBaseStream();
*checkedFileSize = stream->getLength();
Goffset len = end-start;
stream->setPos(end-1);
int c2 = stream->lookChar();
stream->setPos(start);
int c1 = stream->getChar();
// PDF signatures are first ASN1 DER, then hex encoded PKCS#7 structures,
// possibly padded with 0 characters and enclosed in '<' and '>'.
// The ASN1 DER encoding of a PKCS#7 structure must start with the tag 0x30
// for SEQUENCE. The next byte must be 0x80 for ASN1 DER indefinite length
// encoding or (0x80 + n) for ASN1 DER definite length encoding
// where n is the number of subsequent "length bytes" which big-endian
// encode the length of the content of the SEQUENCE following them.
if (len <= std::numeric_limits<int>::max() && *checkedFileSize > end && c1 == '<' && c2 == '>')
{
GooString gstr;
++start;
--end;
len = end-start;
Goffset pos = 0;
do
{
c1 = stream->getChar();
if (c1 == EOF)
return nullptr;
gstr.append(static_cast<char>(c1));
} while (++pos < len);
if (gstr.getChar(0) == '3' && gstr.getChar(1) == '0')
{
if (gstr.getChar(2) == '8' && gstr.getChar(3) == '0')
{
// ASN1 DER indefinite length encoding:
// We only check that all characters up to the enclosing '>'
// are hex characters and that there are two hex encoded 0 bytes
// just before the enclosing '>' marking the end of the indefinite
// length encoding.
int paddingCount = 0;
while (gstr.getChar(len-1) == '0' && gstr.getChar(len-2) == '0')
{
++paddingCount;
len -= 2;
}
if (paddingCount < 2 || len%2 == 1)
len = 0;
}
else if (gstr.getChar(2) == '8')
{
// ASN1 DER definite length encoding:
// We calculate the length of the following bytes from the length bytes and
// check that after the length bytes and the following calculated number of
// bytes all bytes up to the enclosing '>' character are hex encoded 0 bytes.
int lenBytes = gstr.getChar(3) - '0';
if (lenBytes > 0 && lenBytes <= 4)
{
int sigLen = 0;
for (int i = 0; i < 2*lenBytes; ++i)
{
sigLen <<= 4;
char c = gstr.getChar(i+4);
if (isdigit(c))
sigLen += c - '0';
else if (isxdigit(c) && c >= 'a')
sigLen += c - 'a' + 10;
else if (isxdigit(c) && c >= 'A')
sigLen += c - 'A' + 10;
else
{
len = 0;
break;
}
}
if (sigLen > 0 && 2*(sigLen+lenBytes) <= len-4)
{
for (int i = 2*(sigLen+lenBytes)+4; i < len; ++i)
{
if (gstr.getChar(i) != '0')
{
len = 0;
break;
}
}
}
else
len = 0;
}
}
for (int i = 0; i < len; ++i)
{
if (!isxdigit(gstr.getChar(i)))
len = 0;
}
if (len > 0)
{
return new GooString(&gstr, 0, len);
}
}
}
}
return nullptr;
}
void FormWidgetSignature::updateWidgetAppearance()
{
// Unimplemented
}
//========================================================================
// FormField
//========================================================================
FormField::FormField(PDFDoc *docA, Object &&aobj, const Ref aref, FormField *parentA, std::set<int> *usedParents, FormFieldType ty)
{
doc = docA;
xref = doc->getXRef();
obj = std::move(aobj);
Dict* dict = obj.getDict();
ref.num = ref.gen = 0;
type = ty;
parent = parentA;
numChildren = 0;
children = nullptr;
terminal = false;
widgets = nullptr;
readOnly = false;
defaultAppearance = nullptr;
fullyQualifiedName = nullptr;
quadding = quaddingLeftJustified;
hasQuadding = false;
ref = aref;
//childs
Object obj1 = dict->lookup("Kids");
if (obj1.isArray()) {
// Load children
for (int i = 0 ; i < obj1.arrayGetLength(); i++) {
Object childRef = obj1.arrayGetNF(i);
if (!childRef.isRef()) {
error (errSyntaxError, -1, "Invalid form field renference");
continue;
}
Object childObj = obj1.arrayGet(i);
if (!childObj.isDict()) {
error (errSyntaxError, -1, "Form field child is not a dictionary");
continue;
}
const Ref ref = childRef.getRef();
if (usedParents->find(ref.num) == usedParents->end()) {
// Field child: it could be a form field or a widget or composed dict
Object obj2 = childObj.dictLookupNF("Parent");
Object obj3 = childObj.dictLookup("Parent");
if (obj2.isRef() || obj3.isDict()) {
// Child is a form field or composed dict
// We create the field, if it's composed
// it will create the widget as a child
std::set<int> usedParentsAux = *usedParents;
usedParentsAux.insert(ref.num);
if (terminal) {
error(errSyntaxWarning, -1, "Field can't have both Widget AND Field as kids\n");
continue;
}
numChildren++;
children = (FormField**)greallocn(children, numChildren, sizeof(FormField*));
children[numChildren - 1] = Form::createFieldFromDict(std::move(childObj), doc, ref, this, &usedParentsAux);
} else {
obj2 = childObj.dictLookup("Subtype");
if (obj2.isName("Widget")) {
// Child is a widget annotation
if (!terminal && numChildren > 0) {
error(errSyntaxWarning, -1, "Field can't have both Widget AND Field as kids\n");
continue;
}
_createWidget(&childObj, ref);
}
}
}
}
} else {
// No children, if it's a composed dict, create the child widget
obj1 = dict->lookup("Subtype");
if (obj1.isName("Widget"))
_createWidget(&obj, ref);
}
//flags
obj1 = Form::fieldLookup(dict, "Ff");
if (obj1.isInt()) {
int flags = obj1.getInt();
if (flags & 0x1) { // 1 -> ReadOnly
readOnly = true;
}
if (flags & 0x2) { // 2 -> Required
//TODO
}
if (flags & 0x4) { // 3 -> NoExport
//TODO
}
}
// Variable Text
obj1 = Form::fieldLookup(dict, "DA");
if (obj1.isString())
defaultAppearance = obj1.getString()->copy();
obj1 = Form::fieldLookup(dict, "Q");
if (obj1.isInt()) {
quadding = static_cast<VariableTextQuadding>(obj1.getInt());
hasQuadding = true;
}
obj1 = dict->lookup("T");
if (obj1.isString()) {
partialName = obj1.getString()->copy();
} else {
partialName = nullptr;
}
obj1 = dict->lookup("TU");
if (obj1.isString()) {
alternateUiName = obj1.getString()->copy();
} else {
alternateUiName = nullptr;
}
obj1 = dict->lookup("TM");
if(obj1.isString()) {
mappingName = obj1.getString()->copy();
} else {
mappingName = nullptr;
}
}
void FormField::setPartialName(const GooString &name)
{
delete partialName;
partialName = name.copy();
obj.getDict()->set("T", Object(name.copy()));
xref->setModifiedObject(&obj, ref);
}
FormField::~FormField()
{
if (!terminal) {
if(children) {
for (int i=0; i<numChildren; i++)
delete children[i];
gfree(children);
}
} else {
for (int i = 0; i < numChildren; ++i)
delete widgets[i];
gfree (widgets);
}
delete defaultAppearance;
delete partialName;
delete alternateUiName;
delete mappingName;
delete fullyQualifiedName;
}
void FormField::print(int indent)
{
printf ("%*s- (%d %d): [container] terminal: %s children: %d\n", indent, "", ref.num, ref.gen,
terminal ? "Yes" : "No", numChildren);
}
void FormField::printTree(int indent)
{
print(indent);
if (terminal) {
for (int i = 0; i < numChildren; i++)
widgets[i]->print(indent + 4);
} else {
for (int i = 0; i < numChildren; i++)
children[i]->printTree(indent + 4);
}
}
void FormField::fillChildrenSiblingsID()
{
if (terminal)
return;
for (int i = 0; i < numChildren; i++) {
children[i]->fillChildrenSiblingsID();
}
}
void FormField::createWidgetAnnotations() {
if (terminal) {
for (int i = 0; i < numChildren; i++)
widgets[i]->createWidgetAnnotation();
} else {
for (int i = 0; i < numChildren; i++)
children[i]->createWidgetAnnotations();
}
}
void FormField::_createWidget (Object *obj, Ref aref)
{
terminal = true;
numChildren++;
widgets = (FormWidget**)greallocn(widgets, numChildren, sizeof(FormWidget*));
//ID = index in "widgets" table
switch (type) {
case formButton:
widgets[numChildren-1] = new FormWidgetButton(doc, obj, numChildren-1, aref, this);
break;
case formText:
widgets[numChildren-1] = new FormWidgetText(doc, obj, numChildren-1, aref, this);
break;
case formChoice:
widgets[numChildren-1] = new FormWidgetChoice(doc, obj, numChildren-1, aref, this);
break;
case formSignature:
widgets[numChildren-1] = new FormWidgetSignature(doc, obj, numChildren-1, aref, this);
break;
default:
error(errSyntaxWarning, -1, "SubType on non-terminal field, invalid document?");
numChildren--;
}
}
FormWidget* FormField::findWidgetByRef (Ref aref)
{
if (terminal) {
for(int i=0; i<numChildren; i++) {
if (widgets[i]->getRef().num == aref.num
&& widgets[i]->getRef().gen == aref.gen)
return widgets[i];
}
} else {
for(int i=0; i<numChildren; i++) {
FormWidget* result = children[i]->findWidgetByRef(aref);
if(result) return result;
}
}
return nullptr;
}
GooString* FormField::getFullyQualifiedName() {
Object obj1;
Object parent;
const GooString *parent_name;
GooString *full_name;
bool unicode_encoded = false;
if (fullyQualifiedName)
return fullyQualifiedName;
full_name = new GooString();
obj1 = obj.copy();
while (parent = obj1.dictLookup("Parent"), parent.isDict()) {
Object obj2 = parent.dictLookup("T");
if (obj2.isString()) {
parent_name = obj2.getString();
if (unicode_encoded) {
full_name->insert(0, "\0.", 2); // 2-byte unicode period
if (parent_name->hasUnicodeMarker()) {
full_name->insert(0, parent_name->c_str() + 2, parent_name->getLength() - 2); // Remove the unicode BOM
} else {
int tmp_length;
char* tmp_str = pdfDocEncodingToUTF16(parent_name, &tmp_length);
full_name->insert(0, tmp_str + 2, tmp_length - 2); // Remove the unicode BOM
delete [] tmp_str;
}
} else {
full_name->insert(0, '.'); // 1-byte ascii period
if (parent_name->hasUnicodeMarker()) {
unicode_encoded = true;
full_name = convertToUtf16(full_name);
full_name->insert(0, parent_name->c_str() + 2, parent_name->getLength() - 2); // Remove the unicode BOM
} else {
full_name->insert(0, parent_name);
}
}
}
obj1 = parent.copy();
}
if (partialName) {
if (unicode_encoded) {
if (partialName->hasUnicodeMarker()) {
full_name->append(partialName->c_str() + 2, partialName->getLength() - 2); // Remove the unicode BOM
} else {
int tmp_length;
char* tmp_str = pdfDocEncodingToUTF16(partialName, &tmp_length);
full_name->append(tmp_str + 2, tmp_length - 2); // Remove the unicode BOM
delete [] tmp_str;
}
} else {
if (partialName->hasUnicodeMarker()) {
unicode_encoded = true;
full_name = convertToUtf16(full_name);
full_name->append(partialName->c_str() + 2, partialName->getLength() - 2); // Remove the unicode BOM
} else {
full_name->append(partialName);
}
}
} else {
int len = full_name->getLength();
// Remove the last period
if (unicode_encoded) {
if (len > 1) {
full_name->del(len - 2, 2);
}
} else {
if (len > 0) {
full_name->del(len - 1, 1);
}
}
}
if (unicode_encoded) {
full_name->prependUnicodeMarker();
}
fullyQualifiedName = full_name;
return fullyQualifiedName;
}
void FormField::updateChildrenAppearance()
{
// Recursively update each child's appearance
if (terminal) {
for (int i = 0; i < numChildren; i++)
widgets[i]->updateWidgetAppearance();
} else {
for (int i = 0; i < numChildren; i++)
children[i]->updateChildrenAppearance();
}
}
void FormField::setReadOnly (bool value)
{
if (value == readOnly) {
return;
}
readOnly = value;
Dict* dict = obj.getDict();
const Object obj1 = Form::fieldLookup(dict, "Ff");
int flags = 0;
if (obj1.isInt()) {
flags = obj1.getInt();
}
if (value) {
flags |= 1;
} else {
flags &= ~1;
}
dict->set("Ff", Object(flags));
xref->setModifiedObject(&obj, ref);
updateChildrenAppearance();
}
//------------------------------------------------------------------------
// FormFieldButton
//------------------------------------------------------------------------
FormFieldButton::FormFieldButton(PDFDoc *docA, Object &&aobj, const Ref ref, FormField *parent, std::set<int> *usedParents)
: FormField(docA, std::move(aobj), ref, parent, usedParents, formButton)
{
Dict* dict = obj.getDict();
active_child = -1;
noAllOff = false;
siblings = nullptr;
numSiblings = 0;
appearanceState.setToNull();
btype = formButtonCheck;
Object obj1 = Form::fieldLookup(dict, "Ff");
if (obj1.isInt()) {
int flags = obj1.getInt();
if (flags & 0x10000) { // 17 -> push button
btype = formButtonPush;
} else if (flags & 0x8000) { // 16 -> radio button
btype = formButtonRadio;
if (flags & 0x4000) { // 15 -> noToggleToOff
noAllOff = true;
}
}
if (flags & 0x1000000) { // 26 -> radiosInUnison
error(errUnimplemented, -1, "FormFieldButton:: radiosInUnison flag unimplemented, please report a bug with a testcase\n");
}
}
if (btype != formButtonPush) {
// Even though V is inheritable we are interested in the value of this
// field, if not present it's probably because it's a button in a set.
appearanceState = dict->lookup("V");
}
}
static const char *_getButtonType(FormButtonType type)
{
switch (type) {
case formButtonPush:
return "push";
case formButtonCheck:
return "check";
case formButtonRadio:
return "radio";
default:
break;
}
return "unknown";
}
void FormFieldButton::print(int indent)
{
printf ("%*s- (%d %d): [%s] terminal: %s children: %d\n", indent, "", ref.num, ref.gen,
_getButtonType(btype), terminal ? "Yes" : "No", numChildren);
}
void FormFieldButton::setNumSiblings (int num)
{
numSiblings = num;
siblings = (FormFieldButton**)greallocn(siblings, numSiblings, sizeof(FormFieldButton*));
}
void FormFieldButton::fillChildrenSiblingsID()
{
if (!terminal) {
for(int i=0; i<numChildren; i++) {
FormFieldButton *child = dynamic_cast<FormFieldButton*>(children[i]);
if (child != nullptr) {
// Fill the siblings of this node childs
child->setNumSiblings(numChildren-1);
for(int j=0, counter=0; j<numChildren; j++) {
FormFieldButton *otherChild = dynamic_cast<FormFieldButton*>(children[j]);
if (i == j) continue;
if (child == otherChild) continue;
child->setSibling(counter, otherChild);
counter++;
}
// now call ourselves on the child
// to fill its children data
child->fillChildrenSiblingsID();
}
}
}
}
bool FormFieldButton::setState(const char *state)
{
// A check button could behave as a radio button
// when it's in a set of more than 1 buttons
if (btype != formButtonRadio && btype != formButtonCheck)
return false;
if (terminal && parent && parent->getType() == formButton && appearanceState.isNull()) {
// It's button in a set, set state on parent
if (static_cast<FormFieldButton*>(parent)->setState(state)) {
return true;
}
return false;
}
bool isOn = strcmp(state, "Off") != 0;
if (!isOn && noAllOff)
return false; // Don't allow to set all radio to off
const char *current = getAppearanceState();
bool currentFound = false, newFound = false;
for (int i = 0; i < numChildren; i++) {
FormWidgetButton *widget;
// If radio button is a terminal field we want the widget at i, but
// if it's not terminal, the child widget is a composed dict, so
// we want the ony child widget of the children at i
if (terminal)
widget = static_cast<FormWidgetButton*>(widgets[i]);
else
widget = static_cast<FormWidgetButton*>(children[i]->getWidget(0));
if (!widget->getOnStr())
continue;
const char *onStr = widget->getOnStr();
if (current && strcmp(current, onStr) == 0) {
widget->setAppearanceState("Off");
if (!isOn)
break;
currentFound = true;
}
if (isOn && strcmp(state, onStr) == 0) {
widget->setAppearanceState(state);
newFound = true;
}
if (currentFound && newFound)
break;
}
updateState(state);
return true;
}
bool FormFieldButton::getState(const char *state) const {
if (appearanceState.isName(state))
return true;
return (parent && parent->getType() == formButton) ? static_cast<FormFieldButton*>(parent)->getState(state) : false;
}
void FormFieldButton::updateState(const char *state) {
appearanceState = Object(objName, state);
obj.getDict()->set("V", appearanceState.copy());
xref->setModifiedObject(&obj, ref);
}
FormFieldButton::~FormFieldButton()
{
if (siblings)
gfree(siblings);
}
//------------------------------------------------------------------------
// FormFieldText
//------------------------------------------------------------------------
FormFieldText::FormFieldText(PDFDoc *docA, Object &&aobj, const Ref ref, FormField *parent, std::set<int> *usedParents)
: FormField(docA, std::move(aobj), ref, parent, usedParents, formText)
{
Dict* dict = obj.getDict();
Object obj1;
content = nullptr;
multiline = password = fileSelect = doNotSpellCheck = doNotScroll = comb = richText = false;
maxLen = 0;
obj1 = Form::fieldLookup(dict, "Ff");
if (obj1.isInt()) {
int flags = obj1.getInt();
if (flags & 0x1000) // 13 -> Multiline
multiline = true;
if (flags & 0x2000) // 14 -> Password
password = true;
if (flags & 0x100000) // 21 -> FileSelect
fileSelect = true;
if (flags & 0x400000)// 23 -> DoNotSpellCheck
doNotSpellCheck = true;
if (flags & 0x800000) // 24 -> DoNotScroll
doNotScroll = true;
if (flags & 0x1000000) // 25 -> Comb
comb = true;
if (flags & 0x2000000)// 26 -> RichText
richText = true;
}
obj1 = Form::fieldLookup(dict, "MaxLen");
if (obj1.isInt()) {
maxLen = obj1.getInt();
}
obj1 = Form::fieldLookup(dict, "V");
if (obj1.isString()) {
if (obj1.getString()->hasUnicodeMarker()) {
if (obj1.getString()->getLength() > 2)
content = obj1.getString()->copy();
} else if (obj1.getString()->getLength() > 0) {
//non-unicode string -- assume pdfDocEncoding and try to convert to UTF16BE
int tmp_length;
char* tmp_str = pdfDocEncodingToUTF16(obj1.getString(), &tmp_length);
content = new GooString(tmp_str, tmp_length);
delete [] tmp_str;
}
}
}
void FormFieldText::print(int indent)
{
printf ("%*s- (%d %d): [text] terminal: %s children: %d\n", indent, "", ref.num, ref.gen,
terminal ? "Yes" : "No", numChildren);
}
void FormFieldText::setContentCopy (const GooString* new_content)
{
delete content;
content = nullptr;
if (new_content) {
content = new_content->copy();
//append the unicode marker <FE FF> if needed
if (!content->hasUnicodeMarker()) {
content->prependUnicodeMarker();
}
}
obj.getDict()->set("V", Object(content ? content->copy() : new GooString("")));
xref->setModifiedObject(&obj, ref);
updateChildrenAppearance();
}
FormFieldText::~FormFieldText()
{
delete content;
}
double FormFieldText::getTextFontSize()
{
GooList* daToks = new GooList();
int idx = parseDA(daToks);
double fontSize = -1;
if (idx >= 0) {
char* p = nullptr;
fontSize = strtod(static_cast<GooString*>(daToks->get(idx))->c_str(), &p);
if (!p || *p)
fontSize = -1;
}
deleteGooList<GooString>(daToks);
return fontSize;
}
void FormFieldText::setTextFontSize(int fontSize)
{
if (fontSize > 0 && obj.isDict()) {
GooList* daToks = new GooList();
int idx = parseDA(daToks);
if (idx == -1) {
error(errSyntaxError, -1, "FormFieldText:: invalid DA object\n");
deleteGooList<GooString>(daToks);
return;
}
if (defaultAppearance)
delete defaultAppearance;
defaultAppearance = new GooString;
for (int i = 0; i < daToks->getLength(); ++i) {
if (i > 0)
defaultAppearance->append(' ');
if (i == idx) {
defaultAppearance->appendf("{0:d}", fontSize);
} else {
defaultAppearance->append(static_cast<GooString*>(daToks->get(i)));
}
}
deleteGooList<GooString>(daToks);
obj.dictSet("DA", Object(defaultAppearance->copy()));
xref->setModifiedObject(&obj, ref);
updateChildrenAppearance();
}
}
int FormFieldText::tokenizeDA(const GooString* da, GooList* daToks, const char* searchTok)
{
int idx = -1;
if(da && daToks) {
int i = 0;
int j = 0;
while (i < da->getLength()) {
while (i < da->getLength() && Lexer::isSpace(da->getChar(i))) {
++i;
}
if (i < da->getLength()) {
for (j = i + 1; j < da->getLength() && !Lexer::isSpace(da->getChar(j)); ++j) {
}
GooString* tok = new GooString(da, i, j - i);
if (searchTok && !tok->cmp(searchTok))
idx = daToks->getLength();
daToks->push_back(tok);
i = j;
}
}
}
return idx;
}
int FormFieldText::parseDA(GooList* daToks)
{
int idx = -1;
if (obj.isDict()) {
Object objDA(obj.dictLookup("DA"));
if (objDA.isString()) {
const GooString* da = objDA.getString();
idx = tokenizeDA(da, daToks, "Tf") - 1;
}
}
return idx;
}
//------------------------------------------------------------------------
// FormFieldChoice
//------------------------------------------------------------------------
FormFieldChoice::FormFieldChoice(PDFDoc *docA, Object &&aobj, const Ref ref, FormField *parent, std::set<int> *usedParents)
: FormField(docA, std::move(aobj), ref, parent, usedParents, formChoice)
{
numChoices = 0;
choices = nullptr;
editedChoice = nullptr;
topIdx = 0;
Dict* dict = obj.getDict();
Object obj1;
combo = edit = multiselect = doNotSpellCheck = doCommitOnSelChange = false;
obj1 = Form::fieldLookup(dict, "Ff");
if (obj1.isInt()) {
int flags = obj1.getInt();
if (flags & 0x20000) // 18 -> Combo
combo = true;
if (flags & 0x40000) // 19 -> Edit
edit = true;
if (flags & 0x200000) // 22 -> MultiSelect
multiselect = true;
if (flags & 0x400000) // 23 -> DoNotSpellCheck
doNotSpellCheck = true;
if (flags & 0x4000000) // 27 -> CommitOnSelChange
doCommitOnSelChange = true;
}
obj1 = dict->lookup("TI");
if (obj1.isInt())
topIdx = obj1.getInt();
obj1 = dict->lookup("Opt");
if (obj1.isArray()) {
numChoices = obj1.arrayGetLength();
choices = new ChoiceOpt[numChoices];
memset(choices, 0, sizeof(ChoiceOpt) * numChoices);
for (int i = 0; i < numChoices; i++) {
Object obj2 = obj1.arrayGet(i);
if (obj2.isString()) {
choices[i].optionName = obj2.getString()->copy();
} else if (obj2.isArray()) { // [Export_value, Displayed_text]
if (obj2.arrayGetLength() < 2) {
error(errSyntaxError, -1, "FormWidgetChoice:: invalid Opt entry -- array's length < 2\n");
continue;
}
Object obj3 = obj2.arrayGet(0);
if (obj3.isString())
choices[i].exportVal = obj3.getString()->copy();
else
error(errSyntaxError, -1, "FormWidgetChoice:: invalid Opt entry -- exported value not a string\n");
obj3 = obj2.arrayGet(1);
if (obj3.isString())
choices[i].optionName = obj3.getString()->copy();
else
error(errSyntaxError, -1, "FormWidgetChoice:: invalid Opt entry -- choice name not a string\n");
} else {
error(errSyntaxError, -1, "FormWidgetChoice:: invalid {0:d} Opt entry\n", i);
}
}
} else {
//empty choice
}
// Find selected items
// Note: PDF specs say that /V has precedence over /I, but acroread seems to
// do the opposite. We do the same.
obj1 = Form::fieldLookup(dict, "I");
if (obj1.isArray()) {
for (int i = 0; i < obj1.arrayGetLength(); i++) {
Object obj2 = obj1.arrayGet(i);
if (obj2.isInt() && obj2.getInt() >= 0 && obj2.getInt() < numChoices) {
choices[obj2.getInt()].selected = true;
}
}
} else {
// Note: According to PDF specs, /V should *never* contain the exportVal.
// However, if /Opt is an array of (exportVal,optionName) pairs, acroread
// seems to expect the exportVal instead of the optionName and so we do too.
obj1 = Form::fieldLookup(dict, "V");
if (obj1.isString()) {
bool optionFound = false;
for (int i = 0; i < numChoices; i++) {
if (choices[i].exportVal) {
if (choices[i].exportVal->cmp(obj1.getString()) == 0) {
optionFound = true;
}
} else if (choices[i].optionName) {
if (choices[i].optionName->cmp(obj1.getString()) == 0) {
optionFound = true;
}
}
if (optionFound) {
choices[i].selected = true;
break; // We've determined that this option is selected. No need to keep on scanning
}
}
// Set custom value if /V doesn't refer to any predefined option and the field is user-editable
if (!optionFound && edit) {
editedChoice = obj1.getString()->copy();
}
} else if (obj1.isArray()) {
for (int i = 0; i < numChoices; i++) {
for (int j = 0; j < obj1.arrayGetLength(); j++) {
Object obj2 = obj1.arrayGet(j);
bool matches = false;
if (choices[i].exportVal) {
if (choices[i].exportVal->cmp(obj2.getString()) == 0) {
matches = true;
}
} else if (choices[i].optionName) {
if (choices[i].optionName->cmp(obj2.getString()) == 0) {
matches = true;
}
}
if (matches) {
choices[i].selected = true;
break; // We've determined that this option is selected. No need to keep on scanning
}
}
}
}
}
}
FormFieldChoice::~FormFieldChoice()
{
for (int i = 0; i < numChoices; i++) {
delete choices[i].exportVal;
delete choices[i].optionName;
}
delete [] choices;
delete editedChoice;
}
void FormFieldChoice::print(int indent)
{
printf ("%*s- (%d %d): [choice] terminal: %s children: %d\n", indent, "", ref.num, ref.gen,
terminal ? "Yes" : "No", numChildren);
}
void FormFieldChoice::updateSelection() {
Object objV;
Object objI(objNull);
if (edit && editedChoice) {
// This is an editable combo-box with user-entered text
objV = Object(editedChoice->copy());
} else {
const int numSelected = getNumSelected();
// Create /I array only if multiple selection is allowed (as per PDF spec)
if (multiselect) {
objI = Object(new Array(xref));
}
if (numSelected == 0) {
// No options are selected
objV = Object(new GooString(""));
} else if (numSelected == 1) {
// Only one option is selected
for (int i = 0; i < numChoices; i++) {
if (choices[i].selected) {
if (multiselect) {
objI.arrayAdd(Object(i));
}
if (choices[i].exportVal) {
objV = Object(choices[i].exportVal->copy());
} else if (choices[i].optionName) {
objV = Object(choices[i].optionName->copy());
}
break; // We've just written the selected option. No need to keep on scanning
}
}
} else {
// More than one option is selected
objV = Object(new Array(xref));
for (int i = 0; i < numChoices; i++) {
if (choices[i].selected) {
if (multiselect) {
objI.arrayAdd(Object(i));
}
if (choices[i].exportVal) {
objV.arrayAdd(Object(choices[i].exportVal->copy()));
} else if (choices[i].optionName) {
objV.arrayAdd(Object(choices[i].optionName->copy()));
}
}
}
}
}
obj.getDict()->set("V", std::move(objV));
obj.getDict()->set("I", std::move(objI));
xref->setModifiedObject(&obj, ref);
updateChildrenAppearance();
}
void FormFieldChoice::unselectAll ()
{
for (int i = 0; i < numChoices; i++) {
choices[i].selected = false;
}
}
void FormFieldChoice::deselectAll () {
delete editedChoice;
editedChoice = nullptr;
unselectAll();
updateSelection();
}
void FormFieldChoice::toggle (int i)
{
delete editedChoice;
editedChoice = nullptr;
choices[i].selected = !choices[i].selected;
updateSelection();
}
void FormFieldChoice::select (int i)
{
delete editedChoice;
editedChoice = nullptr;
if (!multiselect)
unselectAll();
choices[i].selected = true;
updateSelection();
}
void FormFieldChoice::setEditChoice (const GooString* new_content)
{
delete editedChoice;
editedChoice = nullptr;
unselectAll();
if (new_content) {
editedChoice = new_content->copy();
//append the unicode marker <FE FF> if needed
if (!editedChoice->hasUnicodeMarker()) {
editedChoice->prependUnicodeMarker();
}
}
updateSelection();
}
const GooString* FormFieldChoice::getEditChoice () const
{
return editedChoice;
}
int FormFieldChoice::getNumSelected ()
{
int cnt = 0;
for(int i=0; i<numChoices; i++) {
if (choices[i].selected)
cnt++;
}
return cnt;
}
const GooString *FormFieldChoice::getSelectedChoice() const {
if (edit && editedChoice)
return editedChoice;
for (int i = 0; i < numChoices; i++) {
if (choices[i].optionName && choices[i].selected)
return choices[i].optionName;
}
return nullptr;
}
//------------------------------------------------------------------------
// FormFieldSignature
//------------------------------------------------------------------------
FormFieldSignature::FormFieldSignature(PDFDoc *docA, Object &&dict, const Ref ref, FormField *parent, std::set<int> *usedParents)
: FormField(docA, std::move(dict), ref, parent, usedParents, formSignature),
signature_type(adbe_pkcs7_detached),
signature(nullptr), signature_info(nullptr)
{
signature = nullptr;
signature_info = new SignatureInfo();
parseInfo();
}
FormFieldSignature::~FormFieldSignature()
{
delete signature_info;
delete signature;
}
void FormFieldSignature::parseInfo()
{
if (!obj.isDict())
return;
// retrieve PKCS#7
Object sig_dict = obj.dictLookup("V");
if (!sig_dict.isDict()) {
return;
}
Object contents_obj = sig_dict.dictLookup("Contents");
if (contents_obj.isString()) {
signature = contents_obj.getString()->copy();
}
byte_range = sig_dict.dictLookup("ByteRange");
const Object location_obj = sig_dict.dictLookup("Location");
if (location_obj.isString()) {
signature_info->setLocation(location_obj.getString()->c_str());
}
const Object reason_obj = sig_dict.dictLookup("Reason");
if (reason_obj.isString()) {
signature_info->setReason(reason_obj.getString()->c_str());
}
// retrieve SigningTime
Object time_of_signing = sig_dict.dictLookup("M");
if (time_of_signing.isString()) {
const GooString *time_str = time_of_signing.getString();
signature_info->setSigningTime(dateStringToTime(time_str)); // Put this information directly in SignatureInfo object
}
// check if subfilter is supported for signature validation, only detached signatures work for now
Object subfilterName = sig_dict.dictLookup("SubFilter");
if (subfilterName.isName("adbe.pkcs7.sha1")) {
signature_type = adbe_pkcs7_sha1;
signature_info->setSubFilterSupport(true);
}
else if (subfilterName.isName("adbe.pkcs7.detached")) {
signature_type = adbe_pkcs7_detached;
signature_info->setSubFilterSupport(true);
}
else if (subfilterName.isName("ETSI.CAdES.detached")) {
signature_type = ETSI_CAdES_detached;
signature_info->setSubFilterSupport(true);
}
}
void FormFieldSignature::hashSignedDataBlock(SignatureHandler *handler, Goffset block_len)
{
#ifdef ENABLE_NSS3
const int BLOCK_SIZE = 4096;
unsigned char signed_data_buffer[BLOCK_SIZE];
Goffset i = 0;
while(i < block_len)
{
Goffset bytes_left = block_len - i;
if (bytes_left < BLOCK_SIZE)
{
doc->getBaseStream()->doGetChars(bytes_left, signed_data_buffer);
handler->updateHash(signed_data_buffer, bytes_left);
i = block_len;
}
else
{
doc->getBaseStream()->doGetChars(BLOCK_SIZE, signed_data_buffer);
handler->updateHash(signed_data_buffer, BLOCK_SIZE);
i += BLOCK_SIZE;
}
}
#endif
}
FormSignatureType FormWidgetSignature::signatureType()
{
return static_cast<FormFieldSignature*>(field)->signature_type;
}
SignatureInfo *FormFieldSignature::validateSignature(bool doVerifyCert, bool forceRevalidation, time_t validationTime)
{
#ifdef ENABLE_NSS3
if (!signature_info->isSubfilterSupported()) {
error(errUnimplemented, 0, "Unable to validate this type of signature");
return signature_info;
}
if (signature_info->getSignatureValStatus() != SIGNATURE_NOT_VERIFIED && !forceRevalidation) {
return signature_info;
}
if (signature == nullptr) {
error(errSyntaxError, 0, "Invalid or missing Signature string");
return signature_info;
}
if (!byte_range.isArray()) {
error(errSyntaxError, 0, "Invalid or missing ByteRange array");
return signature_info;
}
int arrayLen = byte_range.arrayGetLength();
if (arrayLen < 2) {
error(errSyntaxError, 0, "Too few elements in ByteRange array");
return signature_info;
}
NSSCMSVerificationStatus sig_val_state;
SECErrorCodes cert_val_state;
const int signature_len = signature->getLength();
unsigned char *signatureuchar = (unsigned char *)gmalloc(signature_len);
memcpy(signatureuchar, signature->c_str(), signature_len);
SignatureHandler signature_handler(signatureuchar, signature_len);
Goffset fileLength = doc->getBaseStream()->getLength();
for (int i = 0; i < arrayLen/2; i++) {
Object offsetObj = byte_range.arrayGet(i*2);
Object lenObj = byte_range.arrayGet(i*2+1);
if (!offsetObj.isIntOrInt64() || !lenObj.isIntOrInt64()) {
error(errSyntaxError, 0, "Illegal values in ByteRange array");
return signature_info;
}
Goffset offset = offsetObj.getIntOrInt64();
Goffset len = lenObj.getIntOrInt64();
if (offset < 0 || offset >= fileLength || len < 0 || len > fileLength || offset + len > fileLength) {
error(errSyntaxError, 0, "Illegal values in ByteRange array");
return signature_info;
}
doc->getBaseStream()->setPos(offset);
hashSignedDataBlock(&signature_handler, len);
}
sig_val_state = signature_handler.validateSignature();
signature_info->setSignatureValStatus(SignatureHandler::NSS_SigTranslate(sig_val_state));
signature_info->setSignerName(signature_handler.getSignerName());
signature_info->setSubjectDN(signature_handler.getSignerSubjectDN());
signature_info->setHashAlgorithm(signature_handler.getHashAlgorithm());
// verify if signature contains a 'signing time' attribute
if (signature_handler.getSigningTime() != 0) {
signature_info->setSigningTime(signature_handler.getSigningTime());
}
if (sig_val_state != NSSCMSVS_GoodSignature || !doVerifyCert) {
return signature_info;
}
cert_val_state = signature_handler.validateCertificate(validationTime);
signature_info->setCertificateValStatus(SignatureHandler::NSS_CertTranslate(cert_val_state));
signature_info->setCertificateInfo(signature_handler.getCertificateInfo());
#endif
return signature_info;
}
void FormFieldSignature::print(int indent)
{
printf ("%*s- (%d %d): [signature] terminal: %s children: %d\n", indent, "", ref.num, ref.gen,
terminal ? "Yes" : "No", numChildren);
}
//------------------------------------------------------------------------
// Form
//------------------------------------------------------------------------
Form::Form(PDFDoc *docA, Object* acroFormA)
{
Object obj1;
doc = docA;
xref = doc->getXRef();
acroForm = acroFormA;
size = 0;
numFields = 0;
rootFields = nullptr;
quadding = quaddingLeftJustified;
defaultAppearance = nullptr;
defaultResources = nullptr;
obj1 = acroForm->dictLookup("NeedAppearances");
needAppearances = (obj1.isBool() && obj1.getBool());
obj1 = acroForm->dictLookup("DA");
if (obj1.isString())
defaultAppearance = obj1.getString()->copy();
obj1 = acroForm->dictLookup("Q");
if (obj1.isInt())
quadding = static_cast<VariableTextQuadding>(obj1.getInt());
resDict = acroForm->dictLookup("DR");
if (resDict.isDict()) {
// At a minimum, this dictionary shall contain a Font entry
obj1 = resDict.dictLookup("Font");
if (obj1.isDict())
defaultResources = new GfxResources(xref, resDict.getDict(), nullptr);
}
if (!defaultResources) {
resDict.setToNull();
}
obj1 = acroForm->dictLookup("Fields");
if (obj1.isArray()) {
Array *array = obj1.getArray();
for(int i=0; i<array->getLength(); i++) {
Object obj2 = array->get(i);
Object oref = array->getNF(i);
if (!oref.isRef()) {
error(errSyntaxWarning, -1, "Direct object in rootFields");
continue;
}
if (!obj2.isDict()) {
error(errSyntaxWarning, -1, "Reference in Fields array to an invalid or non existent object");
continue;
}
if (numFields >= size) {
size += 16;
rootFields = (FormField**)greallocn(rootFields,size,sizeof(FormField*));
}
std::set<int> usedParents;
rootFields[numFields++] = createFieldFromDict (std::move(obj2), doc, oref.getRef(), nullptr, &usedParents);
}
} else {
error(errSyntaxError, -1, "Can't get Fields array\n");
}
obj1 = acroForm->dictLookup("CO");
if (obj1.isArray()) {
Array *array = obj1.getArray();
calculateOrder.reserve(array->getLength());
for(int i=0; i<array->getLength(); i++) {
Object oref = array->getNF(i);
if (!oref.isRef()) {
error(errSyntaxWarning, -1, "Direct object in CO");
continue;
}
calculateOrder.push_back(oref.getRef());
}
}
// for (int i = 0; i < numFields; i++)
// rootFields[i]->printTree();
}
Form::~Form() {
int i;
for(i = 0; i < numFields; ++i)
delete rootFields[i];
gfree (rootFields);
delete defaultAppearance;
delete defaultResources;
}
// Look up an inheritable field dictionary entry.
static Object fieldLookup(Dict *field, const char *key, std::set<int> *usedParents) {
Dict *dict = field;
Object obj = dict->lookup(key);
if (!obj.isNull()) {
return obj;
}
Object parent = dict->lookupNF("Parent");
if (parent.isRef()) {
const Ref ref = parent.getRef();
if (usedParents->find(ref.num) == usedParents->end()) {
usedParents->insert(ref.num);
Object obj2 = parent.fetch(dict->getXRef());
if (obj2.isDict()) {
return fieldLookup(obj2.getDict(), key, usedParents);
}
}
} else if (parent.isDict()) {
return fieldLookup(parent.getDict(), key, usedParents);
}
return Object(objNull);
}
Object Form::fieldLookup(Dict *field, const char *key) {
std::set<int> usedParents;
return ::fieldLookup(field, key, &usedParents);
}
FormField *Form::createFieldFromDict (Object &&obj, PDFDoc *docA, const Ref pref, FormField *parent, std::set<int> *usedParents)
{
FormField *field;
const Object obj2 = Form::fieldLookup(obj.getDict (), "FT");
if (obj2.isName("Btn")) {
field = new FormFieldButton(docA, std::move(obj), pref, parent, usedParents);
} else if (obj2.isName("Tx")) {
field = new FormFieldText(docA, std::move(obj), pref, parent, usedParents);
} else if (obj2.isName("Ch")) {
field = new FormFieldChoice(docA, std::move(obj), pref, parent, usedParents);
} else if (obj2.isName("Sig")) {
field = new FormFieldSignature(docA, std::move(obj), pref, parent, usedParents);
} else { //we don't have an FT entry => non-terminal field
field = new FormField(docA, std::move(obj), pref, parent, usedParents);
}
return field;
}
void Form::postWidgetsLoad()
{
// We create the widget annotations associated to
// every form widget here, because the AnnotWidget constructor
// needs the form object that gets from the catalog. When constructing
// a FormWidget the Catalog is still creating the form object
for (int i = 0; i < numFields; i++) {
rootFields[i]->fillChildrenSiblingsID();
rootFields[i]->createWidgetAnnotations();
}
}
FormWidget* Form::findWidgetByRef (Ref aref)
{
for(int i=0; i<numFields; i++) {
FormWidget *result = rootFields[i]->findWidgetByRef(aref);
if(result) return result;
}
return nullptr;
}
//------------------------------------------------------------------------
// FormPageWidgets
//------------------------------------------------------------------------
FormPageWidgets::FormPageWidgets (Annots *annots, unsigned int page, Form *form)
{
numWidgets = 0;
widgets = nullptr;
if (annots && annots->getNumAnnots() > 0 && form) {
size = annots->getNumAnnots();
widgets = (FormWidget**)greallocn(widgets, size, sizeof(FormWidget*));
/* For each entry in the page 'Annots' dict, try to find
a matching form field */
for (int i = 0; i < size; ++i) {
Annot *annot = annots->getAnnot(i);
if (annot->getType() != Annot::typeWidget)
continue;
if (!annot->getHasRef()) {
/* Since all entry in a form field's kid dict needs to be
indirect references, if this annot isn't indirect, it isn't
related to a form field */
continue;
}
Ref r = annot->getRef();
/* Try to find a form field which either has this Annot in its Kids entry
or is merged with this Annot */
FormWidget* tmp = form->findWidgetByRef(r);
if (tmp) {
// We've found a corresponding form field, link it
tmp->setID(FormWidget::encodeID(page, numWidgets));
widgets[numWidgets++] = tmp;
}
}
}
}
FormPageWidgets::~FormPageWidgets()
{
gfree (widgets);
}