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/*
kpgpkey.h
Copyright (C) 2001,2002 the KPGP authors
See file AUTHORS.kpgp for details
This file is part of KPGP, the KDE PGP/GnuPG support library.
KPGP 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 of the License, or
(at your option) any later version.
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
*/
#ifndef KPGPKEY_H
#define KPGPKEY_H
#include <time.h>
#include <qcstring.h>
#include <qstring.h>
#include <qstringlist.h>
#include <qvaluelist.h>
namespace Kpgp {
/** These are the possible validity values for a PGP user id and for the owner
trust.
*/
typedef enum
{ // this is copied from gpgme.h which is a part of GPGME
KPGP_VALIDITY_UNKNOWN = 0, // the trust hasn't been determined
KPGP_VALIDITY_UNDEFINED = 1, // trust is undefined
KPGP_VALIDITY_NEVER = 2,
KPGP_VALIDITY_MARGINAL = 3,
KPGP_VALIDITY_FULL = 4,
KPGP_VALIDITY_ULTIMATE = 5
} Validity;
/** These are the possible preferences for encryption.
*/
typedef enum
{
NeverEncrypt = -1,
UnknownEncryptPref = 0,
AlwaysEncrypt = 1,
AlwaysEncryptIfPossible = 2,
AlwaysAskForEncryption = 3,
AskWheneverPossible = 4
} EncryptPref;
typedef QCString KeyID;
class KeyIDList : public QValueList<KeyID>
{
public:
KeyIDList() { }
KeyIDList( const KeyIDList& l ) : QValueList<KeyID>(l) { }
KeyIDList( const QValueList<KeyID>& l ) : QValueList<KeyID>(l) { }
KeyIDList( const KeyID& i ) { append(i); }
QStringList toStringList() const;
static KeyIDList fromStringList( const QStringList& );
};
/** This class is used to store information about a user id of a PGP key.
*/
class UserID
{
public:
/** Constructs a new user id with the given values. */
UserID(const QString& str,
const Validity validity = KPGP_VALIDITY_UNKNOWN,
const bool revoked = false,
const bool invalid = false);
~UserID() {};
/** Returns the text of the user id. */
QString text() const;
/** Returns true if the user id has been revoked. */
bool revoked() const;
/** Returns true if the user id is invalid. */
bool invalid() const;
/** Returns the validity of resp. the trust in the user id. */
Validity validity() const;
/** Sets the text of the user id to <em>str</em>. */
void setText(const QString& str);
/** Sets the flag if the user id has been revoked to <em>revoked</em>. */
void setRevoked(const bool revoked);
/** Sets the flag if the user id is invalid to <em>invalid</em>. */
void setInvalid(const bool invalid);
/** Sets the validity of resp. the trust in the user id to
<em>validity</em>. */
void setValidity(const Validity validity);
protected:
bool mRevoked : 1;
bool mInvalid : 1;
Validity mValidity;
QString mText;
};
typedef QPtrList<UserID> UserIDList;
typedef QPtrListIterator<UserID> UserIDListIterator;
inline QString UserID::text() const
{
return mText;
}
inline bool UserID::revoked() const
{
return mRevoked;
}
inline bool UserID::invalid() const
{
return mInvalid;
}
inline Validity UserID::validity() const
{
return mValidity;
}
inline void UserID::setText(const QString& str)
{
mText = str;
}
inline void UserID::setRevoked(const bool revoked)
{
mRevoked = revoked;
}
inline void UserID::setInvalid(const bool invalid)
{
mInvalid = invalid;
}
inline void UserID::setValidity(const Validity validity)
{
mValidity = validity;
}
/** This class is used to store information about a subkey of a PGP key.
*/
class Subkey
{
public:
/** Constructs a new subkey with the given key ID. */
Subkey(const KeyID& keyID, const bool secret = false);
~Subkey() {};
/** Returns true if the subkey is a secret subkey. */
bool secret() const;
/** Returns true if the subkey has been revoked. */
bool revoked() const;
/** Returns true if the subkey has expired. */
bool expired() const;
/** Returns true if the subkey has been disabled. */
bool disabled() const;
/** Returns true if the subkey is invalid. */
bool invalid() const;
/** Returns true if the subkey can be used to encrypt data. */
bool canEncrypt() const;
/** Returns true if the subkey can be used to sign data. */
bool canSign() const;
/** Returns true if the subkey can be used to certify keys. */
bool canCertify() const;
/** Returns the key algorithm of the subkey. */
unsigned int keyAlgorithm() const;
/** Returns the length of the subkey in bits. */
unsigned int keyLength() const;
/** Returns the long 64 bit key ID of the subkey if it's available.
Otherwise the short 32 bit key ID is returned. */
KeyID longKeyID() const;
/** Returns the (short) 32 bit key ID of the subkey. */
KeyID keyID() const;
/** Returns the fingerprint of the subkey. */
QCString fingerprint() const;
/** Returns the creation date of the subkey. */
time_t creationDate() const;
/** Returns the expiration date of the subkey. */
time_t expirationDate() const;
/** Sets the flag if the subkey is a secret subkey to <em>secret</em>. */
void setSecret(const bool secret);
/** Sets the flag if the subkey has been revoked to <em>revoked</em>. */
void setRevoked(const bool revoked);
/** Sets the flag if the subkey has expired to <em>expired</em>. */
void setExpired(const bool expired);
/** Sets the flag if the subkey has been disabled to <em>disabled</em>. */
void setDisabled(const bool disabled);
/** Sets the flag if the subkey is invalid to <em>invalid</em>. */
void setInvalid(const bool invalid);
/** Sets the flag if the subkey can be used to encrypt data to
<em>canEncrypt</em>. */
void setCanEncrypt(const bool canEncrypt);
/** Sets the flag if the subkey can be used to sign data to
<em>canSign</em>. */
void setCanSign(const bool canSign);
/** Sets the flag if the subkey can be used to certify keys to
<em>canCertify</em>. */
void setCanCertify(const bool canCertify);
/** Sets the key algorithm of the subkey to <em>keyAlgo</em>. */
void setKeyAlgorithm(const unsigned int keyAlgo);
/** Sets the key length of the subkey to <em>keyLen</em> bits. */
void setKeyLength(const unsigned int keyLen);
/** Sets the key ID of the subkey to <em>keyID</em>. */
void setKeyID(const KeyID& keyID);
/** Sets the fingerprint of the subkey to <em>fingerprint</em>. */
void setFingerprint(const QCString& fingerprint);
/** Sets the creation date of the subkey to <em>creationDate</em> seconds
since Epoch. */
void setCreationDate(const time_t creationDate);
/** Sets the expiration date of the subkey to <em>expirationDate</em> seconds
since Epoch. */
void setExpirationDate(const time_t expirationDate);
protected:
bool mSecret : 1;
/* various flags */
bool mRevoked : 1;
bool mExpired : 1;
bool mDisabled : 1;
bool mInvalid : 1;
bool mCanEncrypt : 1;
bool mCanSign : 1;
bool mCanCertify : 1;
unsigned int mKeyAlgo;
unsigned int mKeyLen;
KeyID mKeyID;
QCString mFingerprint;
time_t mTimestamp; /* -1 for invalid, 0 for not available */
time_t mExpiration; /* -1 for never, 0 for not available */
};
inline bool Subkey::secret() const
{
return mSecret;
}
inline bool Subkey::revoked() const
{
return mRevoked;
}
inline bool Subkey::expired() const
{
return mExpired;
}
inline bool Subkey::disabled() const
{
return mDisabled;
}
inline bool Subkey::invalid() const
{
return mInvalid;
}
inline bool Subkey::canEncrypt() const
{
return mCanEncrypt;
}
inline bool Subkey::canSign() const
{
return mCanSign;
}
inline bool Subkey::canCertify() const
{
return mCanCertify;
}
inline unsigned int Subkey::keyAlgorithm() const
{
return mKeyAlgo;
}
inline unsigned int Subkey::keyLength() const
{
return mKeyLen;
}
inline KeyID Subkey::longKeyID() const
{
return mKeyID;
}
inline KeyID Subkey::keyID() const
{
return mKeyID.right(8);
}
inline QCString Subkey::fingerprint() const
{
return mFingerprint;
}
inline time_t Subkey::creationDate() const
{
return mTimestamp;
}
inline time_t Subkey::expirationDate() const
{
return mExpiration;
}
inline void Subkey::setSecret(const bool secret)
{
mSecret = secret;
}
inline void Subkey::setRevoked(const bool revoked)
{
mRevoked = revoked;
}
inline void Subkey::setExpired(const bool expired)
{
mExpired = expired;
}
inline void Subkey::setDisabled(const bool disabled)
{
mDisabled = disabled;
}
inline void Subkey::setInvalid(const bool invalid)
{
mInvalid = invalid;
}
inline void Subkey::setCanEncrypt(const bool canEncrypt)
{
mCanEncrypt = canEncrypt;
}
inline void Subkey::setCanSign(const bool canSign)
{
mCanSign = canSign;
}
inline void Subkey::setCanCertify(const bool canCertify)
{
mCanCertify = canCertify;
}
inline void Subkey::setKeyAlgorithm(const unsigned int keyAlgo)
{
mKeyAlgo = keyAlgo;
}
inline void Subkey::setKeyLength(const unsigned int keyLen)
{
mKeyLen = keyLen;
}
inline void Subkey::setKeyID(const KeyID& keyID)
{
mKeyID = keyID;
}
inline void Subkey::setFingerprint(const QCString& fingerprint)
{
mFingerprint = fingerprint;
}
inline void Subkey::setCreationDate(const time_t creationDate)
{
mTimestamp = creationDate;
}
inline void Subkey::setExpirationDate(const time_t expirationDate)
{
mExpiration = expirationDate;
}
typedef QPtrList<Subkey> SubkeyList;
typedef QPtrListIterator<Subkey> SubkeyListIterator;
/** This class is used to store information about a PGP key.
*/
class Key
{
public:
/** Constructs a new PGP key with <em>keyid</em> as key ID of the
primary key and <em>uid</em> as primary user ID. */
Key( const KeyID& keyid = KeyID(),
const QString& uid = QString::null,
const bool secret = false);
~Key();
/** Clears/resets all key data. */
void clear();
/** Returns true if the key is a secret key. */
bool secret() const;
/** Returns true if the key has been revoked. */
bool revoked() const;
/** Returns true if the key has expired. */
bool expired() const;
/** Returns true if the key has been disabled. */
bool disabled() const;
/** Returns true if the key is invalid. */
bool invalid() const;
/** Returns true if the key can be used to encrypt data. */
bool canEncrypt() const;
/** Returns true if the key can be used to sign data. */
bool canSign() const;
/** Returns true if the key can be used to certify keys. */
bool canCertify() const;
/** Sets the flag if the key is a secret key to <em>secret</em>. */
void setSecret(const bool secret);
/** Sets the flag if the key has been revoked to <em>revoked</em>. */
void setRevoked(const bool revoked);
/** Sets the flag if the key has expired to <em>expired</em>. */
void setExpired(const bool expired);
/** Sets the flag if the key has been disabled to <em>disabled</em>. */
void setDisabled(const bool disabled);
/** Sets the flag if the key is invalid to <em>invalid</em>. */
void setInvalid(const bool invalid);
/** Sets the flag if the key can be used to encrypt data to
<em>canEncrypt</em>. */
void setCanEncrypt(const bool canEncrypt);
/** Sets the flag if the key can be used to sign data to
<em>canSign</em>. */
void setCanSign(const bool canSign);
/** Sets the flag if the key can be used to certify keys to
<em>canCertify</em>. */
void setCanCertify(const bool canCertify);
/** Returns the encryption preference for this key. */
EncryptPref encryptionPreference();
/** Sets the encryption preference for this key to <em>encrPref</em>. */
void setEncryptionPreference( const EncryptPref encrPref );
/** Returns the primary user ID or a null string if there are no
user IDs. */
QString primaryUserID() const;
/** Returns the key ID of the primary key or a null string if there
are no subkeys. */
KeyID primaryKeyID() const;
/** Returns the fingerprint of the primary key or a null string if there
are no subkeys. */
QCString primaryFingerprint() const;
/** Returns true if there are no user IDs or no subkeys.*/
bool isNull() const;
/** Returns the creation date of the primary subkey.
*/
time_t creationDate() const;
/** Returns the trust value of this key. This is the maximal trust value
of any of the user ids of this key.
*/
Validity keyTrust() const;
/** Returns the trust value for the given user id of this key.
*/
Validity keyTrust( const QString& uid ) const;
/** Set the validity values for the user ids to the validity values of
the given key. This is useful after rereading a key without expensive
trust checking.
*/
void cloneKeyTrust( const Key* key );
/** Returns true if the key is valid, i.e. not revoked, expired, disabled
or invalid.
*/
bool isValid() const;
/** Returns true if the key is a valid encryption key. The trust is not
checked.
*/
bool isValidEncryptionKey() const;
/** Returns true if the key is a valid signing key. The trust is not checked.
*/
bool isValidSigningKey() const;
/** Returns the list of userIDs. */
const UserIDList userIDs() const;
/** Returns the list of subkeys. */
const SubkeyList subkeys() const;
/** Adds a user ID with the given values to the key if <em>uid</em> isn't
an empty string. */
void addUserID(const QString& uid,
const Validity validity = KPGP_VALIDITY_UNKNOWN,
const bool revoked = false,
const bool invalid = false);
/** Adds the given user ID to the key. */
void addUserID(const UserID *userID);
/** Returns true if the given string matches one of the user IDs.
The match is case sensitive if <em>cs</em> is true or case insensitive
if <em>cs</em> is false. */
bool matchesUserID(const QString& str, bool cs = true);
/** Adds a subkey with the given values to the key if <em>keyID</em> isn't
an empty string. */
void addSubkey(const KeyID& keyID, const bool secret = false);
/** Adds the given subkey to the key. */
void addSubkey(const Subkey *subkey);
/** Returns a pointer to the subkey with the given key ID. */
Subkey *getSubkey(const KeyID& keyID);
/** Sets the fingerprint of the given subkey to <em>fpr</em>. */
void setFingerprint(const KeyID& keyID, const QCString& fpr);
protected:
bool mSecret : 1;
/* global flags */
bool mRevoked : 1;
bool mExpired : 1;
bool mDisabled : 1;
bool mInvalid : 1;
bool mCanEncrypt : 1;
bool mCanSign : 1;
bool mCanCertify : 1;
EncryptPref mEncryptPref;
SubkeyList mSubkeys;
UserIDList mUserIDs;
};
inline bool Key::secret() const
{
return mSecret;
}
inline bool Key::revoked() const
{
return mRevoked;
}
inline bool Key::expired() const
{
return mExpired;
}
inline bool Key::disabled() const
{
return mDisabled;
}
inline bool Key::invalid() const
{
return mInvalid;
}
inline bool Key::canEncrypt() const
{
return mCanEncrypt;
}
inline bool Key::canSign() const
{
return mCanSign;
}
inline bool Key::canCertify() const
{
return mCanCertify;
}
inline void Key::setSecret(const bool secret)
{
mSecret = secret;
}
inline void Key::setRevoked(const bool revoked)
{
mRevoked = revoked;
}
inline void Key::setExpired(const bool expired)
{
mExpired = expired;
}
inline void Key::setDisabled(const bool disabled)
{
mDisabled = disabled;
}
inline void Key::setInvalid(const bool invalid)
{
mInvalid = invalid;
}
inline void Key::setCanEncrypt(const bool canEncrypt)
{
mCanEncrypt = canEncrypt;
}
inline void Key::setCanSign(const bool canSign)
{
mCanSign = canSign;
}
inline void Key::setCanCertify(const bool canCertify)
{
mCanCertify = canCertify;
}
inline EncryptPref Key::encryptionPreference()
{
return mEncryptPref;
}
inline void Key::setEncryptionPreference( const EncryptPref encrPref )
{
mEncryptPref = encrPref;
}
inline QString Key::primaryUserID() const
{
UserID *uid = mUserIDs.getFirst();
if (uid)
return uid->text();
else
return QString::null;
}
inline KeyID Key::primaryKeyID() const
{
Subkey *key = mSubkeys.getFirst();
if (key)
return key->keyID();
else
return KeyID();
}
inline QCString Key::primaryFingerprint() const
{
Subkey *key = mSubkeys.getFirst();
if (key)
return key->fingerprint();
else
return QCString();
}
inline const UserIDList Key::userIDs() const
{
return mUserIDs;
}
inline const SubkeyList Key::subkeys() const
{
return mSubkeys;
}
inline bool Key::isNull() const
{
return (mUserIDs.isEmpty() || mSubkeys.isEmpty());
}
inline time_t Key::creationDate() const
{
if( !mSubkeys.isEmpty() )
return mSubkeys.getFirst()->creationDate();
else
return -1;
}
inline void Key::addUserID(const UserID *userID)
{
if (userID)
mUserIDs.append(userID);
}
inline void Key::addSubkey(const Subkey *subkey)
{
if (subkey)
mSubkeys.append(subkey);
}
typedef QPtrList<Key> KeyListBase;
typedef QPtrListIterator<Key> KeyListIterator;
class KeyList : public KeyListBase
{
public:
~KeyList()
{ clear(); }
private:
int compareItems( QPtrCollection::Item s1, QPtrCollection::Item s2 )
{
// sort case insensitively by the primary User IDs
return QString::compare((static_cast<Key*>(s1))->primaryUserID().lower(),
(static_cast<Key*>(s2))->primaryUserID().lower());
}
};
} // namespace Kpgp
#endif
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