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skia / third_party / poppler / 40f5c496016ba94c9a27e31c5d1afb8e1a366de5 / . / qt5 / src / poppler-form.cc
blob: ef13e58c0d8d49d4054f35f178add1f0972c6b8e [file] [log] [blame]
/* poppler-form.h: qt interface to poppler
* Copyright (C) 2007-2008, 2011, Pino Toscano <pino@kde.org>
* Copyright (C) 2008, 2011, 2012, 2015-2019 Albert Astals Cid <aacid@kde.org>
* Copyright (C) 2011 Carlos Garcia Campos <carlosgc@gnome.org>
* Copyright (C) 2012, Adam Reichold <adamreichold@myopera.com>
* Copyright (C) 2016, Hanno Meyer-Thurow <h.mth@web.de>
* Copyright (C) 2017, Hans-Ulrich Jüttner <huj@froreich-bioscientia.de>
* Copyright (C) 2018, Andre Heinecke <aheinecke@intevation.de>
* Copyright (C) 2018 Klarälvdalens Datakonsult AB, a KDAB Group company, <info@kdab.com>. Work sponsored by the LiMux project of the city of Munich
* Copyright (C) 2018 Chinmoy Ranjan Pradhan <chinmoyrp65@protonmail.com>
* Copyright (C) 2018 Oliver Sander <oliver.sander@tu-dresden.de>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "poppler-qt5.h"
#include <QtCore/QSizeF>
#include <Form.h>
#include <Object.h>
#include <Link.h>
#include <SignatureInfo.h>
#include <CertificateInfo.h>
#include "poppler-form.h"
#include "poppler-page-private.h"
#include "poppler-private.h"
#include "poppler-annotation-helper.h"
#include <math.h>
#include <ctype.h>
#ifdef ENABLE_NSS3
#include <hasht.h>
#endif
namespace {
Qt::Alignment formTextAlignment(::FormWidget *fm)
{
Qt::Alignment qtalign = Qt::AlignLeft;
switch (fm->getField()->getTextQuadding())
{
case quaddingCentered:
qtalign = Qt::AlignHCenter;
break;
case quaddingRightJustified:
qtalign = Qt::AlignRight;
break;
case quaddingLeftJustified:
qtalign = Qt::AlignLeft;
}
return qtalign;
}
}
namespace Poppler {
FormField::FormField(FormFieldData &dd)
: m_formData(&dd)
{
const int rotation = m_formData->page->getRotate();
// reading the coords
double left, top, right, bottom;
m_formData->fm->getRect(&left, &bottom, &right, &top);
// build a normalized transform matrix for this page at 100% scale
GfxState gfxState( 72.0, 72.0, m_formData->page->getCropBox(), rotation, true );
const double * gfxCTM = gfxState.getCTM();
double MTX[6];
double pageWidth = m_formData->page->getCropWidth();
double pageHeight = m_formData->page->getCropHeight();
// landscape and seascape page rotation: be sure to use the correct (== rotated) page size
if (((rotation / 90) % 2) == 1)
qSwap(pageWidth, pageHeight);
for ( int i = 0; i < 6; i+=2 )
{
MTX[i] = gfxCTM[i] / pageWidth;
MTX[i+1] = gfxCTM[i+1] / pageHeight;
}
QPointF topLeft;
XPDFReader::transform( MTX, qMin( left, right ), qMax( top, bottom ), topLeft );
QPointF bottomRight;
XPDFReader::transform( MTX, qMax( left, right ), qMin( top, bottom ), bottomRight );
m_formData->box = QRectF(topLeft, QSizeF(bottomRight.x() - topLeft.x(), bottomRight.y() - topLeft.y()));
}
FormField::~FormField()
{
delete m_formData;
m_formData = nullptr;
}
QRectF FormField::rect() const
{
return m_formData->box;
}
int FormField::id() const
{
return m_formData->fm->getID();
}
QString FormField::name() const
{
QString name;
if (const GooString *goo = m_formData->fm->getPartialName())
{
name = QString::fromLatin1(goo->c_str());
}
return name;
}
void FormField::setName(const QString &name) const
{
GooString * goo = QStringToGooString( name );
m_formData->fm->setPartialName(*goo);
delete goo;
}
QString FormField::fullyQualifiedName() const
{
QString name;
if (GooString *goo = m_formData->fm->getFullyQualifiedName())
{
name = UnicodeParsedString(goo);
}
return name;
}
QString FormField::uiName() const
{
QString name;
if (const GooString *goo = m_formData->fm->getAlternateUiName())
{
name = QString::fromLatin1(goo->c_str());
}
return name;
}
bool FormField::isReadOnly() const
{
return m_formData->fm->isReadOnly();
}
void FormField::setReadOnly(bool value)
{
m_formData->fm->setReadOnly(value);
}
bool FormField::isVisible() const
{
return !(m_formData->fm->getWidgetAnnotation()->getFlags() & Annot::flagHidden);
}
void FormField::setVisible(bool value)
{
unsigned int flags = m_formData->fm->getWidgetAnnotation()->getFlags();
if (value) {
flags &= ~Annot::flagHidden;
} else {
flags |= Annot::flagHidden;
}
m_formData->fm->getWidgetAnnotation()->setFlags(flags);
}
Link* FormField::activationAction() const
{
Link* action = nullptr;
if (::LinkAction *act = m_formData->fm->getActivationAction())
{
action = PageData::convertLinkActionToLink(act, m_formData->doc, QRectF());
}
return action;
}
Link *FormField::additionalAction(AdditionalActionType type) const
{
Annot::FormAdditionalActionsType actionType = Annot::actionFieldModified;
switch ( type )
{
case FieldModified: actionType = Annot::actionFieldModified; break;
case FormatField: actionType = Annot::actionFormatField; break;
case ValidateField: actionType = Annot::actionValidateField; break;
case CalculateField: actionType = Annot::actionCalculateField; break;
}
Link* action = nullptr;
if (::LinkAction *act = m_formData->fm->getAdditionalAction(actionType))
{
action = PageData::convertLinkActionToLink(act, m_formData->doc, QRectF());
}
return action;
}
Link *FormField::additionalAction(Annotation::AdditionalActionType type) const
{
::AnnotWidget *w = m_formData->fm->getWidgetAnnotation();
if (!w)
{
return nullptr;
}
const Annot::AdditionalActionsType actionType = toPopplerAdditionalActionType(type);
Link* action = nullptr;
if (::LinkAction *act = w->getAdditionalAction(actionType))
{
action = PageData::convertLinkActionToLink(act, m_formData->doc, QRectF());
}
return action;
}
FormFieldButton::FormFieldButton(DocumentData *doc, ::Page *p, ::FormWidgetButton *w)
: FormField(*new FormFieldData(doc, p, w))
{
}
FormFieldButton::~FormFieldButton()
{
}
FormFieldButton::FormType FormFieldButton::type() const
{
return FormField::FormButton;
}
FormFieldButton::ButtonType FormFieldButton::buttonType() const
{
FormWidgetButton* fwb = static_cast<FormWidgetButton*>(m_formData->fm);
switch (fwb->getButtonType())
{
case formButtonCheck:
return FormFieldButton::CheckBox;
break;
case formButtonPush:
return FormFieldButton::Push;
break;
case formButtonRadio:
return FormFieldButton::Radio;
break;
}
return FormFieldButton::CheckBox;
}
QString FormFieldButton::caption() const
{
FormWidgetButton* fwb = static_cast<FormWidgetButton*>(m_formData->fm);
QString ret;
if (fwb->getButtonType() == formButtonPush)
{
Dict *dict = m_formData->fm->getObj()->getDict();
Object obj1 = dict->lookup("MK");
if (obj1.isDict())
{
AnnotAppearanceCharacs appearCharacs(obj1.getDict());
if (appearCharacs.getNormalCaption())
{
ret = UnicodeParsedString(appearCharacs.getNormalCaption());
}
}
}
else
{
if (const char *goo = fwb->getOnStr())
{
ret = QString::fromUtf8(goo);
}
}
return ret;
}
bool FormFieldButton::state() const
{
FormWidgetButton* fwb = static_cast<FormWidgetButton*>(m_formData->fm);
return fwb->getState();
}
void FormFieldButton::setState( bool state )
{
FormWidgetButton* fwb = static_cast<FormWidgetButton*>(m_formData->fm);
fwb->setState((bool)state);
}
QList<int> FormFieldButton::siblings() const
{
FormWidgetButton* fwb = static_cast<FormWidgetButton*>(m_formData->fm);
::FormFieldButton* ffb = static_cast< ::FormFieldButton* >(fwb->getField());
if (fwb->getButtonType() == formButtonPush)
return QList<int>();
QList<int> ret;
for (int i = 0; i < ffb->getNumSiblings(); ++i)
{
::FormFieldButton* sibling = static_cast< ::FormFieldButton* >(ffb->getSibling(i));
for (int j = 0; j < sibling->getNumWidgets(); ++j)
{
FormWidget *w = sibling->getWidget(j);
if (w) ret.append(w->getID());
}
}
return ret;
}
FormFieldText::FormFieldText(DocumentData *doc, ::Page *p, ::FormWidgetText *w)
: FormField(*new FormFieldData(doc, p, w))
{
}
FormFieldText::~FormFieldText()
{
}
FormField::FormType FormFieldText::type() const
{
return FormField::FormText;
}
FormFieldText::TextType FormFieldText::textType() const
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
if (fwt->isFileSelect())
return FormFieldText::FileSelect;
else if (fwt->isMultiline())
return FormFieldText::Multiline;
return FormFieldText::Normal;
}
QString FormFieldText::text() const
{
const GooString *goo = static_cast<FormWidgetText*>(m_formData->fm)->getContent();
return UnicodeParsedString(goo);
}
void FormFieldText::setText( const QString& text )
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
GooString * goo = QStringToUnicodeGooString( text );
fwt->setContent( goo );
delete goo;
}
bool FormFieldText::isPassword() const
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
return fwt->isPassword();
}
bool FormFieldText::isRichText() const
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
return fwt->isRichText();
}
int FormFieldText::maximumLength() const
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
const int maxlen = fwt->getMaxLen();
return maxlen > 0 ? maxlen : -1;
}
Qt::Alignment FormFieldText::textAlignment() const
{
return formTextAlignment(m_formData->fm);
}
bool FormFieldText::canBeSpellChecked() const
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
return !fwt->noSpellCheck();
}
double FormFieldText::getFontSize() const
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
return fwt->getTextFontSize();
}
void FormFieldText::setFontSize(int fontSize)
{
FormWidgetText* fwt = static_cast<FormWidgetText*>(m_formData->fm);
fwt->setTextFontSize(fontSize);
}
FormFieldChoice::FormFieldChoice(DocumentData *doc, ::Page *p, ::FormWidgetChoice *w)
: FormField(*new FormFieldData(doc, p, w))
{
}
FormFieldChoice::~FormFieldChoice()
{
}
FormFieldChoice::FormType FormFieldChoice::type() const
{
return FormField::FormChoice;
}
FormFieldChoice::ChoiceType FormFieldChoice::choiceType() const
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
if (fwc->isCombo())
return FormFieldChoice::ComboBox;
return FormFieldChoice::ListBox;
}
QStringList FormFieldChoice::choices() const
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
QStringList ret;
int num = fwc->getNumChoices();
ret.reserve(num);
for (int i = 0; i < num; ++i)
{
ret.append(UnicodeParsedString(fwc->getChoice(i)));
}
return ret;
}
bool FormFieldChoice::isEditable() const
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
return fwc->isCombo() ? fwc->hasEdit() : false;
}
bool FormFieldChoice::multiSelect() const
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
return !fwc->isCombo() ? fwc->isMultiSelect() : false;
}
QList<int> FormFieldChoice::currentChoices() const
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
int num = fwc->getNumChoices();
QList<int> choices;
for ( int i = 0; i < num; ++i )
if ( fwc->isSelected( i ) )
choices.append( i );
return choices;
}
void FormFieldChoice::setCurrentChoices( const QList<int> &choice )
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
fwc->deselectAll();
for ( int i = 0; i < choice.count(); ++i )
fwc->select( choice.at( i ) );
}
QString FormFieldChoice::editChoice() const
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
if ( fwc->isCombo() && fwc->hasEdit() )
return UnicodeParsedString(fwc->getEditChoice());
else
return QString();
}
void FormFieldChoice::setEditChoice(const QString& text)
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
if ( fwc->isCombo() && fwc->hasEdit() )
{
GooString* goo = QStringToUnicodeGooString( text );
fwc->setEditChoice( goo );
delete goo;
}
}
Qt::Alignment FormFieldChoice::textAlignment() const
{
return formTextAlignment(m_formData->fm);
}
bool FormFieldChoice::canBeSpellChecked() const
{
FormWidgetChoice* fwc = static_cast<FormWidgetChoice*>(m_formData->fm);
return !fwc->noSpellCheck();
}
class CertificateInfoPrivate
{
public:
struct EntityInfo
{
QString common_name;
QString email_address;
QString org_name;
QString distinguished_name;
};
EntityInfo issuer_info;
EntityInfo subject_info;
QByteArray certificate_der;
QByteArray serial_number;
QByteArray public_key;
QDateTime validity_start;
QDateTime validity_end;
int public_key_type;
int public_key_strength;
int ku_extensions;
int version;
bool is_self_signed;
bool is_null;
};
CertificateInfo::CertificateInfo(CertificateInfoPrivate* priv)
: d_ptr( priv )
{
}
CertificateInfo::CertificateInfo(const CertificateInfo &other)
: d_ptr( other.d_ptr )
{
}
CertificateInfo::~CertificateInfo() = default;
CertificateInfo &CertificateInfo::operator=(const CertificateInfo &other)
{
if ( this != &other )
d_ptr = other.d_ptr;
return *this;
}
bool CertificateInfo::isNull() const
{
Q_D(const CertificateInfo);
return d->is_null;
}
int CertificateInfo::version() const
{
Q_D(const CertificateInfo);
return d->version;
}
QByteArray CertificateInfo::serialNumber() const
{
Q_D(const CertificateInfo);
return d->serial_number;
}
QString CertificateInfo::issuerInfo(EntityInfoKey key) const
{
Q_D(const CertificateInfo);
switch (key)
{
case CommonName:
return d->issuer_info.common_name;
case DistinguishedName:
return d->issuer_info.distinguished_name;
case EmailAddress:
return d->issuer_info.email_address;
case Organization:
return d->issuer_info.org_name;
default:
return QString();
}
}
QString CertificateInfo::subjectInfo(EntityInfoKey key) const
{
Q_D(const CertificateInfo);
switch (key)
{
case CommonName:
return d->subject_info.common_name;
case DistinguishedName:
return d->subject_info.distinguished_name;
case EmailAddress:
return d->subject_info.email_address;
case Organization:
return d->subject_info.org_name;
default:
return QString();
}
}
QDateTime CertificateInfo::validityStart() const
{
Q_D(const CertificateInfo);
return d->validity_start;
}
QDateTime CertificateInfo::validityEnd() const
{
Q_D(const CertificateInfo);
return d->validity_end;
}
CertificateInfo::KeyUsageExtensions CertificateInfo::keyUsageExtensions() const
{
Q_D(const CertificateInfo);
KeyUsageExtensions kuExtensions = KuNone;
if (d->ku_extensions & KU_DIGITAL_SIGNATURE)
kuExtensions |= KuDigitalSignature;
if (d->ku_extensions & KU_NON_REPUDIATION)
kuExtensions |= KuNonRepudiation;
if (d->ku_extensions & KU_KEY_ENCIPHERMENT)
kuExtensions |= KuKeyEncipherment;
if (d->ku_extensions & KU_DATA_ENCIPHERMENT)
kuExtensions |= KuDataEncipherment;
if (d->ku_extensions & KU_KEY_AGREEMENT)
kuExtensions |= KuKeyAgreement;
if (d->ku_extensions & KU_KEY_CERT_SIGN)
kuExtensions |= KuKeyCertSign;
if (d->ku_extensions & KU_CRL_SIGN)
kuExtensions |= KuClrSign;
if (d->ku_extensions & KU_ENCIPHER_ONLY)
kuExtensions |= KuEncipherOnly;
return kuExtensions;
}
QByteArray CertificateInfo::publicKey() const
{
Q_D(const CertificateInfo);
return d->public_key;
}
CertificateInfo::PublicKeyType CertificateInfo::publicKeyType() const
{
Q_D(const CertificateInfo);
switch (d->public_key_type)
{
case RSAKEY:
return RsaKey;
case DSAKEY:
return DsaKey;
case ECKEY:
return EcKey;
default:
return OtherKey;
}
}
int CertificateInfo::publicKeyStrength() const
{
Q_D(const CertificateInfo);
return d->public_key_strength;
}
bool CertificateInfo::isSelfSigned() const
{
Q_D(const CertificateInfo);
return d->is_self_signed;
}
QByteArray CertificateInfo::certificateData() const
{
Q_D(const CertificateInfo);
return d->certificate_der;
}
class SignatureValidationInfoPrivate {
public:
SignatureValidationInfoPrivate(CertificateInfo &&ci)
: cert_info(ci)
{
}
SignatureValidationInfo::SignatureStatus signature_status;
SignatureValidationInfo::CertificateStatus certificate_status;
CertificateInfo cert_info;
QByteArray signature;
QString signer_name;
QString signer_subject_dn;
QString location;
QString reason;
int hash_algorithm;
time_t signing_time;
QList<qint64> range_bounds;
qint64 docLength;
};
SignatureValidationInfo::SignatureValidationInfo(SignatureValidationInfoPrivate* priv)
: d_ptr(priv)
{
}
SignatureValidationInfo::SignatureValidationInfo(const SignatureValidationInfo &other)
: d_ptr( other.d_ptr )
{
}
SignatureValidationInfo::~SignatureValidationInfo()
{
}
SignatureValidationInfo::SignatureStatus SignatureValidationInfo::signatureStatus() const
{
Q_D(const SignatureValidationInfo);
return d->signature_status;
}
SignatureValidationInfo::CertificateStatus SignatureValidationInfo::certificateStatus() const
{
Q_D(const SignatureValidationInfo);
return d->certificate_status;
}
QString SignatureValidationInfo::signerName() const
{
Q_D(const SignatureValidationInfo);
return d->signer_name;
}
QString SignatureValidationInfo::signerSubjectDN() const
{
Q_D(const SignatureValidationInfo);
return d->signer_subject_dn;
}
QString SignatureValidationInfo::location() const
{
Q_D(const SignatureValidationInfo);
return d->location;
}
QString SignatureValidationInfo::reason() const
{
Q_D(const SignatureValidationInfo);
return d->reason;
}
SignatureValidationInfo::HashAlgorithm SignatureValidationInfo::hashAlgorithm() const
{
#ifdef ENABLE_NSS3
Q_D(const SignatureValidationInfo);
switch (d->hash_algorithm)
{
case HASH_AlgMD2:
return HashAlgorithmMd2;
case HASH_AlgMD5:
return HashAlgorithmMd5;
case HASH_AlgSHA1:
return HashAlgorithmSha1;
case HASH_AlgSHA256:
return HashAlgorithmSha256;
case HASH_AlgSHA384:
return HashAlgorithmSha384;
case HASH_AlgSHA512:
return HashAlgorithmSha512;
case HASH_AlgSHA224:
return HashAlgorithmSha224;
}
#endif
return HashAlgorithmUnknown;
}
time_t SignatureValidationInfo::signingTime() const
{
Q_D(const SignatureValidationInfo);
return d->signing_time;
}
QByteArray SignatureValidationInfo::signature() const
{
Q_D(const SignatureValidationInfo);
return d->signature;
}
QList<qint64> SignatureValidationInfo::signedRangeBounds() const
{
Q_D(const SignatureValidationInfo);
return d->range_bounds;
}
bool SignatureValidationInfo::signsTotalDocument() const
{
Q_D(const SignatureValidationInfo);
if (d->range_bounds.size() == 4 && d->range_bounds.value(0) == 0 &&
d->range_bounds.value(1) >= 0 &&
d->range_bounds.value(2) > d->range_bounds.value(1) &&
d->range_bounds.value(3) >= d->range_bounds.value(2))
{
// The range from d->range_bounds.value(1) to d->range_bounds.value(2) is
// not authenticated by the signature and should only contain the signature
// itself padded with 0 bytes. This has been checked in readSignature().
// If it failed, d->signature is empty.
// A potential range after d->range_bounds.value(3) would be also not
// authenticated. Therefore d->range_bounds.value(3) should coincide with
// the end of the document.
if (d->docLength == d->range_bounds.value(3) && !d->signature.isEmpty())
return true;
}
return false;
}
CertificateInfo SignatureValidationInfo::certificateInfo() const
{
Q_D(const SignatureValidationInfo);
return d->cert_info;
}
SignatureValidationInfo &SignatureValidationInfo::operator=(const SignatureValidationInfo &other)
{
if ( this != &other )
d_ptr = other.d_ptr;
return *this;
}
FormFieldSignature::FormFieldSignature(DocumentData *doc, ::Page *p, ::FormWidgetSignature *w)
: FormField(*new FormFieldData(doc, p, w))
{
}
FormFieldSignature::~FormFieldSignature()
{
}
FormField::FormType FormFieldSignature::type() const
{
return FormField::FormSignature;
}
FormFieldSignature::SignatureType FormFieldSignature::signatureType() const
{
SignatureType sigType = AdbePkcs7detached;
FormWidgetSignature* fws = static_cast<FormWidgetSignature*>(m_formData->fm);
switch (fws->signatureType())
{
case adbe_pkcs7_sha1:
sigType = AdbePkcs7sha1;
break;
case adbe_pkcs7_detached:
sigType = AdbePkcs7detached;
break;
case ETSI_CAdES_detached:
sigType = EtsiCAdESdetached;
break;
}
return sigType;
}
SignatureValidationInfo FormFieldSignature::validate(ValidateOptions opt) const
{
return validate(opt, QDateTime());
}
SignatureValidationInfo FormFieldSignature::validate(int opt, const QDateTime& validationTime) const
{
FormWidgetSignature* fws = static_cast<FormWidgetSignature*>(m_formData->fm);
const time_t validationTimeT = validationTime.isValid() ? validationTime.toTime_t() : -1;
SignatureInfo* si = fws->validateSignature(opt & ValidateVerifyCertificate, opt & ValidateForceRevalidation, validationTimeT);
// get certificate info
const X509CertificateInfo *ci = si->getCertificateInfo();
CertificateInfoPrivate* certPriv = new CertificateInfoPrivate;
certPriv->is_null = true;
if (ci)
{
certPriv->version = ci->getVersion();
certPriv->ku_extensions = ci->getKeyUsageExtensions();
const GooString &certSerial = ci->getSerialNumber();
certPriv->serial_number = QByteArray(certSerial.c_str(), certSerial.getLength());
const X509CertificateInfo::EntityInfo &issuerInfo = ci->getIssuerInfo();
certPriv->issuer_info.common_name = issuerInfo.commonName.c_str();
certPriv->issuer_info.distinguished_name = issuerInfo.distinguishedName.c_str();
certPriv->issuer_info.email_address = issuerInfo.email.c_str();
certPriv->issuer_info.org_name = issuerInfo.organization.c_str();
const X509CertificateInfo::EntityInfo &subjectInfo = ci->getSubjectInfo();
certPriv->subject_info.common_name = subjectInfo.commonName.c_str();
certPriv->subject_info.distinguished_name = subjectInfo.distinguishedName.c_str();
certPriv->subject_info.email_address = subjectInfo.email.c_str();
certPriv->subject_info.org_name = subjectInfo.organization.c_str();
X509CertificateInfo::Validity certValidity = ci->getValidity();
certPriv->validity_start = QDateTime::fromTime_t(certValidity.notBefore, Qt::UTC);
certPriv->validity_end = QDateTime::fromTime_t(certValidity.notAfter, Qt::UTC);
const X509CertificateInfo::PublicKeyInfo &pkInfo = ci->getPublicKeyInfo();
certPriv->public_key = QByteArray(pkInfo.publicKey.c_str(), pkInfo.publicKey.getLength());
certPriv->public_key_type = static_cast<int>(pkInfo.publicKeyType);
certPriv->public_key_strength = pkInfo.publicKeyStrength;
const GooString &certDer = ci->getCertificateDER();
certPriv->certificate_der = QByteArray(certDer.c_str(), certDer.getLength());
certPriv->is_null = false;
}
SignatureValidationInfoPrivate* priv = new SignatureValidationInfoPrivate(CertificateInfo(certPriv));
switch (si->getSignatureValStatus()) {
case SIGNATURE_VALID:
priv->signature_status = SignatureValidationInfo::SignatureValid;
break;
case SIGNATURE_INVALID:
priv->signature_status = SignatureValidationInfo::SignatureInvalid;
break;
case SIGNATURE_DIGEST_MISMATCH:
priv->signature_status = SignatureValidationInfo::SignatureDigestMismatch;
break;
case SIGNATURE_DECODING_ERROR:
priv->signature_status = SignatureValidationInfo::SignatureDecodingError;
break;
default:
case SIGNATURE_GENERIC_ERROR:
priv->signature_status = SignatureValidationInfo::SignatureGenericError;
break;
case SIGNATURE_NOT_FOUND:
priv->signature_status = SignatureValidationInfo::SignatureNotFound;
break;
case SIGNATURE_NOT_VERIFIED:
priv->signature_status = SignatureValidationInfo::SignatureNotVerified;
break;
}
switch (si->getCertificateValStatus()) {
case CERTIFICATE_TRUSTED:
priv->certificate_status = SignatureValidationInfo::CertificateTrusted;
break;
case CERTIFICATE_UNTRUSTED_ISSUER:
priv->certificate_status = SignatureValidationInfo::CertificateUntrustedIssuer;
break;
case CERTIFICATE_UNKNOWN_ISSUER:
priv->certificate_status = SignatureValidationInfo::CertificateUnknownIssuer;
break;
case CERTIFICATE_REVOKED:
priv->certificate_status = SignatureValidationInfo::CertificateRevoked;
break;
case CERTIFICATE_EXPIRED:
priv->certificate_status = SignatureValidationInfo::CertificateExpired;
break;
default:
case CERTIFICATE_GENERIC_ERROR:
priv->certificate_status = SignatureValidationInfo::CertificateGenericError;
break;
case CERTIFICATE_NOT_VERIFIED:
priv->certificate_status = SignatureValidationInfo::CertificateNotVerified;
break;
}
priv->signer_name = si->getSignerName();
priv->signer_subject_dn = si->getSubjectDN();
priv->hash_algorithm = si->getHashAlgorithm();
priv->location = si->getLocation();
priv->reason = si->getReason();
priv->signing_time = si->getSigningTime();
const std::vector<Goffset> ranges = fws->getSignedRangeBounds();
if (!ranges.empty())
{
for (Goffset bound : ranges)
{
priv->range_bounds.append(bound);
}
}
GooString* checkedSignature = fws->getCheckedSignature(&priv->docLength);
if (priv->range_bounds.size() == 4 && checkedSignature)
{
priv->signature = QByteArray::fromHex(checkedSignature->c_str());
}
delete checkedSignature;
return SignatureValidationInfo(priv);
}
}