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tdepim/certmanager/lib/cryptplugwrapper.h

840 lines
32 KiB

/**
* cryptplugwrapper.h
*
* Copyright (c) 2001 Karl-Heinz Zimmer, Klaraelvdalens Datakonsult AB
*
* This CRYPTPLUG wrapper interface is based on cryptplug.h by
* Karl-Heinz Zimmer which is based on 'The Aegypten Plugin API' as
* specified by Matthias Kalle Dalheimer, Klaraelvdalens Datakonsult AB,
* see file mua-integration.sgml located on Aegypten CVS:
* http://www.gnupg.org/aegypten/development.en.html
*
* purpose: Wrap up all Aegypten Plugin API functions in one C++ class
* for usage by KDE programs, e.g. KMail (or KMime, resp.)
*
* 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; version 2 of the License.
*
* 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.
*/
#ifndef cryptplugwrapper_h
#define cryptplugwrapper_h
#include "cryptplug.h"
#ifndef LIBKLEOPATRA_NO_COMPAT
/*
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* *
* This file's source comments are optimized for processing by Doxygen. *
* *
* To obtain best results please get an updated version of Doxygen, *
* for sources and binaries goto http://www.doxygen.org/index.html *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
*/
#include "kleo/cryptobackend.h"
#include <tqdatetime.h>
#include <tqvaluelist.h>
#include <tqpair.h>
#include <tqstringlist.h>
#include <tqstring.h>
#include <tdepimmacros.h>
class KConfigBase;
class QGpgMECryptoConfig;
namespace GpgME {
class ImportResult;
class KeyGenerationResult;
}
namespace Kleo {
class KeyListJob;
class EncryptJob;
class DecryptJob;
class SignJob;
class VerifyDetachedJob;
class VerifyOpaqueJob;
class KeyGenerationJob;
class ImportJob;
class ExportJob;
class DownloadJob;
class DeleteJob;
class SignEncryptJob;
class DecryptVerifyJob;
class CryptoConfig;
class RefreshKeysJob;
class SpecialJob;
}
/*! \file cryptplugwrapper.h
\brief C++ wrapper for the CRYPTPLUG library API.
This CRYPTPLUG wrapper interface is based on cryptplug.h by
Karl-Heinz Zimmer which is based on 'The Aegypten Plugin API' as
specified by Matthias Kalle Dalheimer, Klaraelvdalens Datakonsult AB,
see file mua-integration.sgml located on Aegypten CVS:
http://www.gnupg.org/aegypten/development.en.html
purpose: Wrap up all Aegypten Plugin API functions in one C++ class
for usage by KDE programs, e.g. KMail (or KMime, resp.)
CRYPTPLUG is an independent cryptography plug-in API
developed for Sphinx-enabeling KMail and Mutt.
CRYPTPLUG was designed for the Aegypten project, but it may
be used by 3rd party developers as well to design pluggable
crypto backends for the above mentioned MUAs.
\note All string parameters appearing in this API are to be
interpreted as UTF-8 encoded.
\see cryptplugwrapper.cpp
*/
/*! \defgroup groupAdmin Constructor, destructor and setting of 'active' flag
The functions in this section are used for general administration of
this CRYPTPLUG wrapper class and for maintaining a separate \c active flag
for environments using more than one CRYPTPLUG library simultaneously.
*/
/*! \defgroup groupGeneral Loading and Unloading the Plugin, General Functionality
The functions in this section are used for loading and
unloading the respective CRYPTPLUG library, for (re)setting
it's internal data structures and for retrieving information
on the implementation state of all functions covered by the CRYPTPLUG API.
*/
/*! \defgroup groupDisplay Graphical Display Functionality
The functions in this section return stationery that the
MUAs can use in order to display security functionality
graphically. This can be toolbar icons, shortcuts, tooltips,
etc. Not all MUAs will use all this functionality.
*/
/*! \defgroup groupConfig Configuration Support
The functions in this section provide the necessary
functionality to configure the security functionality as well
as to query configuration settings. Since all configuration
settings will not be saved with the plugin, but rather with
the MUA, there are also functions to set configuration
settings programmatically; these will be used on startup of
the plugin when the MUA transfers the configuration values it
has read into the plugin. Usually, the functions to query and
set the configuration values are not needed for anything but
saving to and restoring from configuration files.
*/
/*! \defgroup groupConfigSign Signature Configuration
\ingroup groupConfig
The functions in this section provide the functionality
to configure signature handling and set and query the
signature configuration.
*/
/*! \defgroup groupConfigCrypt Encryption Configuration
\ingroup groupConfig
The functions in this section provide the functionality
to configure encryption handling and set and query the
encryption configuration.
\note Whenever the term <b> encryption</b> is used here,
it is supposed to mean both encryption and decryption,
unless otherwise specified.
*/
/*! \defgroup groupConfigDir Directory Service Configuration
\ingroup groupConfig
This section contains messages for configuring the
directory service.
*/
/*! \defgroup groupCertHand Certificate Handling
The following methods are used to maintain and query certificates.
*/
/*! \defgroup groupSignCryptAct Signing and Encrypting Actions
This section describes methods and structures
used for signing and/or encrypting your mails.
*/
/*! \defgroup groupSignAct Signature Actions
\ingroup groupSignCryptAct
This section describes methods that are used for working
with signatures.
*/
/*! \defgroup groupCryptAct Encryption and Decryption
\ingroup groupSignCryptAct
The following methods are used to encrypt and decrypt
email messages.
*/
/*! \defgroup groupCertAct Certificate Handling Actions
The functions in this section provide local certificate management.
*/
/*! \defgroup groupCRLAct CRL Handling Actions
This section describes functions for managing CRLs.
*/
/*! \defgroup groupAdUsoInterno Important functions to be used by plugin implementors ONLY.
This section describes functions that have to be used by
plugin implementors but should not be used by plugin users
directly.
If you are not planning to write your own cryptography
plugin <b>you should ignore this</b> section!
*/
class CryptPlugWrapper;
/*! \ingroup groupSignCryptAct
\brief This class provides C++ access to the StructuringInfo helper
struct that is specified in cryptplug.h to hold information
returned by signing and by encrypting functions.
Use this information to compose a MIME object containing signed
and/or encrypted content (or to build a text frame around your
flat non-MIME message body, resp.)
\note This class is different from the respective cryptplug.h class
because this one takes care for freeing the char** members' memory
automatically. You must <b>not</b> call the \c free function for
any of it's members - just ignore the advise given in the
cryptplug.h documentation!
<b>If</b> value returned in \c makeMimeObject is <b>TRUE</b> the
text strings returned in \c contentTypeMain and \c contentDispMain
and \c contentTEncMain (and, if required, \c content[..]Version and
\c bodyTextVersion and \c content[..]Sig) should be used to compose
a respective MIME object.<br>
If <b>FALSE</b> the texts returned in \c flatTextPrefix and
\c flatTextSeparator and \c flatTextPostfix are to be used instead.<br>
Always <b>either</b> the \c content[..] and \c bodyTextVersion
parameters <b>or</b> the \c flatText[..] parameters are holding
valid data - never both of them may be used simultaneously
as plugins will just ignore the parameters not matching their
\c makeMimeObject setting.
When creating your MIME object please observe these common rules:
\li Parameters named \c contentType[..] and \c contentDisp[..] and
\c contentTEnc[..] will return the values for the respective MIME
headers 'Content-Type' and 'Content-Disposition' and
'Content-Transfer-Encoding'. The following applies to these parameters:
\li The relevant MIME part may <b>only</b> be created if the respective
\c contentType[..] parameter is holding a non-zero-length string. If the
\c contentType[..] parameter value is invalid or holding an empty string
the respective \c contentDisp[..] and \c contentTEnc[..] parameters
should be ignored.
\li If the respective \c contentDisp[..] or \c contentTEnc[..] parameter
is NULL or holding a zero-length string it is up to you whether you want
to add the relevant MIME header yourself, but since it in in the
responsibility of the plugin implementors to provide you with all
necessary 'Content-[..]' header information you should <b>not need</b>
to define them if they are not returned by the signing or encrypting
function - otherwise this may be considered as a bug in the plugin and
you could report the missing MIME header information to the address
returned by the \c bugURL() function.
If \c makeMultiMime returns FALSE the \c contentTypeMain returned must
not be altered but used to specify a single part mime object holding the
code bloc, e.g. this is used for 'enveloped-data' single part MIME
objects. In this case you should ignore both the \c content[..]Version
and \c content[..]Code parameters.
If \c makeMultiMime returns TRUE also the following rules apply:
\li If \c includeCleartext is TRUE you should include the cleartext
as first part of our multipart MIME object, typically this is TRUE
when signing mails but FALSE when encrypting.
\li The \c contentTypeMain returned typically starts with
"multipart/" while providing a "protocol" and a "micalg" parameter: just
add an appropriate \c "; boundary=[your \c boundary \c string]" to get
the complete Content-Type value to be used for the MIME object embedding
both the signed part and the signature part (or - in case of
encrypting - the version part and the code part, resp.).
\li If \c contentTypeVersion is holding a non-zero-length string an
additional MIME part must added immediately before the code part, this
version part's MIME headers must have the unaltered values of
\c contentTypeVersion and (if they are holding non-zero-length strings)
\c contentDispVersion and \c contentTEncVersion, the unaltered contents
of \c bodyTextVersion must be it's body.
\li The value returned in \c contentTypeCode is specifying the complete
Content-Type to be used for this multipart MIME object's signature part
(or - in case of encrypting - for the code part following after the
version part, resp.), you should not add/change/remove anything here
but just use it's unaltered value for specifying the Content-Type header
of the respective MIME part.
\li The same applies to the \c contentDispCode value: just use it's
unaltered value to specify the Content-Disposition header entry of
the respective MIME part.
\li The same applies to the \c contentTEncCode value: just use it's
unaltered value to specify the Content-Transfer-Encoding header of
the respective MIME part.
<b>If</b> value returned in \c makeMimeObject is <b>FALSE</b> the
text strings returned in \c flatTextPrefix and \c flatTextPostfix
should be used to build a frame around the cleartext and the code
bloc holding the signature (or - in case of encrypting - the encoded
data bloc, resp.).<br>
If \c includeCleartext is TRUE this frame should also include the
cleartext as first bloc, this bloc should be divided from the code bloc
by the contents of \c flatTextSeparator - typically this is used for
signing but not when encrypting.<br>
If \c includeCleartext is FALSE you should ignore both the cleartext
and the \c flatTextSeparator parameter.
<b>How to use StructuringInfoWrapper data in your program:</b>
\li To compose a signed message please act as described below.
\li For constructing an encrypted message just replace the
\c signMessage() call by the respective \c encryptMessage() call
and then proceed exactly the same way.
\li In any case make <b>sure</b> to free your \c ciphertext when
you are done with processing the data returned by the signing
(or encrypting, resp.) function.
\verbatim
char* ciphertext;
StructuringInfoWrapper structInf;
if( ! signMessage( cleartext, &ciphertext, certificate,
structInf ) ) {
myErrorDialog( "Error: could not sign the message!" );
} else {
if( structInf.data.makeMimeObject ) {
// Build the main MIME object.
// This is done by
// using the header values returned in
// structInf.data.contentTypeMain and in
// structInf.data.contentDispMain and in
// structInf.data.contentTEncMain.
..
if( ! structInf.data.makeMultiMime ) {
// Build the main MIME object's body.
// This is done by
// using the code bloc returned in
// ciphertext.
..
} else {
// Build the encapsulated MIME parts.
if( structInf.data.includeCleartext ) {
// Build a MIME part holding the cleartext.
// This is done by
// using the original cleartext's headers and by
// taking it's original body text.
..
}
if( structInf.data.contentTypeVersion
&& 0 < strlen( structInf.data.contentTypeVersion ) ) {
// Build a MIME part holding the version information.
// This is done by
// using the header values returned in
// structInf.data.contentTypeVersion and
// structInf.data.contentDispVersion and
// structInf.data.contentTEncVersion and by
// taking the body contents returned in
// structInf.data.bodyTextVersion.
..
}
if( structInf.data.contentTypeCode
&& 0 < strlen( structInf.data.contentTypeCode ) ) {
// Build a MIME part holding the code information.
// This is done by
// using the header values returned in
// structInf.data.contentTypeCode and
// structInf.data.contentDispCode and
// structInf.data.contentTEncCode and by
// taking the body contents returned in
// ciphertext.
..
} else {
// Plugin error!
myErrorDialog( "Error: Cryptography plugin returned a main"
"Content-Type=Multipart/.. but did not "
"specify the code bloc's Content-Type header."
"\nYou may report this bug:"
"\n" + cryptplug.bugURL() );
}
}
} else {
// Build a plain message body
// based on the values returned in structInf.
// Note: We do _not_ insert line breaks between the parts since
// it is the plugin job to provide us with ready-to-use
// texts containing all necessary line breaks.
strcpy( myMessageBody, structInf.data.plainTextPrefix );
if( structInf.data.includeCleartext ) {
strcat( myMessageBody, cleartext );
strcat( myMessageBody, structInf.data.plainTextSeparator );
}
strcat( myMessageBody, *ciphertext );
strcat( myMessageBody, structInf.data.plainTextPostfix );
}
// free the memory that was allocated
// for the ciphertext
free( ciphertext );
}
\endverbatim
\see signMessage, encryptMessage, encryptAndSignMessage
*/
class StructuringInfoWrapper {
public:
StructuringInfoWrapper( CryptPlugWrapper* wrapper );
~StructuringInfoWrapper();
void reset();
CryptPlug::StructuringInfo data;
private:
void initMe();
void freeMe();
bool _initDone;
CryptPlugWrapper* _wrapper;
};
/*!
\brief This class provides C++ access to the CRYPTPLUG API.
*/
class KDE_EXPORT CryptPlugWrapper : public Kleo::CryptoBackend::Protocol {
public:
static TQString errorIdToText( int errId, bool & isPassphraseError );
/*! \ingroup groupGeneral
\brief Current initialization state.
This flag holding status of previous call of initialize function.
If initialize was not called before return value will be
\c CryptPlugInit_undef.
\sa initqStatus, initialize
*/
typedef enum {
IniStatus_undef = 0,
IniStatus_Ok = 1,
IniStatus_NoLibName = 2,
IniStatus_LoadError = 0x1000,
IniStatus_InitError = 0x2000
} InitqStatus;
/*! \ingroup groupSignAct
\brief Flags used to compose the SigStatusFlags value.
This status flags are used to compose the SigStatusFlags value
returned in \c SignatureMetaDataExtendedInfo after trying to
verify a signed message part's signature status.
The normal flags may <b>not</b> be used together with the
special SigStatus_NUMERICAL_CODE flag. When finding the special
SigStatus_NUMERICAL_CODE flag in a SigStatusFlags value you
can obtain the respective error code number by substracting
the SigStatusFlags value by SigStatus_NUMERICAL_CODE: this is
used to transport special status information NOT matching
any of the normal predefined status codes.
\note to PlugIn developers: Implementations of the CryptPlug API
should try to express their signature states by bit-wise OR'ing
the normal SigStatusFlags values. Using the SigStatus_NUMERICAL_CODE
flag should only be used as for exceptional situations where no
other flag(s) could be used. By using the normal status flags your
PlugIn's users will be told an understandable description of the
status - when using (SigStatus_NUMERICAL_CODE + internalCode) they
will only be shown the respective code number and have to look
into your PlugIn's manual to learn about it's meaning...
*/
enum {
SigStatus_UNKNOWN = 0x0000,
SigStatus_VALID = SigStat_VALID,
SigStatus_GREEN = SigStat_GREEN,
SigStatus_RED = SigStat_RED,
SigStatus_KEY_REVOKED = SigStat_KEY_REVOKED,
SigStatus_KEY_EXPIRED = SigStat_KEY_EXPIRED,
SigStatus_SIG_EXPIRED = SigStat_SIG_EXPIRED,
SigStatus_KEY_MISSING = SigStat_KEY_MISSING,
SigStatus_CRL_MISSING = SigStat_CRL_MISSING,
SigStatus_CRL_TOO_OLD = SigStat_CRL_TOO_OLD,
SigStatus_BAD_POLICY = SigStat_BAD_POLICY,
SigStatus_SYS_ERROR = SigStat_SYS_ERROR,
SigStatus_NUMERICAL_CODE = 0x8000 /* An other error occurred. */
};
typedef unsigned long SigStatusFlags;
enum {
CerStatus_EXPIRES_NEVER = CRYPTPLUG_CERT_DOES_NEVER_EXPIRE
};
/*! \ingroup groupAdmin
\brief Constructor of CRYPTPLUG wrapper class.
This constructor does <b>not</b> call the initialize() method
but just stores some information for later use.
\note Since more than one crypto plug-in might be specified (using
multiple instances of the warpper class) it is necessary to
set \c active at least one them. Only wrappers that have been
activated may be initialized or configured or used to perform
crypto actions.
\param name The external name that is visible in lists, messages,
etc.
\param libName Complete path+name of CRYPTPLUG library that is to
be used by this instance of CryptPlugWrapper.
\param update the URL from where updates can be downloaded
\param active Specify whether the relative library is to be used
or not.
\sa ~CryptPlugWrapper, setActive, active, initialize, deinitialize
\sa initqStatus
*/
CryptPlugWrapper( const TQString& name=TQString(),
const TQString& libName=TQString(),
const TQString& update=TQString(),
bool active = false );
/*! \ingroup groupAdmin
\brief Destructor of CRYPTPLUG wrapper class.
This destructor <b>does</b> call the deinitialize() method in case
this was not done by explicitly calling it before.
\sa deinitialize, initialize, CryptPlugWrapper(), setActive, active
\sa
*/
~CryptPlugWrapper();
TQString protocol() const;
TQString name() const {
return protocol();
}
/*! \ingroup groupAdmin
\brief Set this CRYPTPLUG wrapper's internal \c active flag.
Since more than one crypto plug-in might be specified (using
multiple instances of the warpper class) it is necessary to
set \c active at least one them. Only wrappers that have been
activated may be initialized or configured or used to perform
crypto actions.
This flag may be set in the constructor or by calling setActive().
\note Deactivating does <b>not</b> mean resetting the internal
structures - if just prevents the normal functions from
being called erroneously. When deactivated only the following
functions are operational: constructor , destructor ,
setActive , active, setLibName , libName , initqStatus;
calling other functions will be ignored and their return
values will be undefined.
\param active Specify whether the relative library is to be used
or not.
\sa active, CryptPlugWrapper(), ~CryptPlugWrapper
\sa deinitialize, initialize, initqStatus
*/
void setActive( bool active );
/*! \ingroup groupAdmin
\brief Returns this CRYPTPLUG wrapper's internal \c active flag.
\return whether the relative library is to be used or not.
\sa setActive
*/
bool active() const;
/*! \ingroup groupAdmin
\brief Set the CRYPTPLUG library name.
Complete path+name of CRYPTPLUG library that is to
be used by this instance of CryptPlugWrapper.
This name may be set in the constructor or by calling setLibName().
\note Setting/changing the library name may only be done when
the initqStatus() is <b>not</b> \c IniStatus_Ok.
If you want to change the name of the library after
successfully having called initialize() please make
sure to unload it by calling the deinitialize() function.
\param libName libName Complete path+name of CRYPTPLUG library
that is to be used by this CryptPlugWrapper.
\return whether the library name could be changed; library name
can only be changed when library is not initialized - see
above 'note'.
\sa libName, CryptPlugWrapper(), ~CryptPlugWrapper
\sa deinitialize, initialize, initqStatus
*/
bool setLibName( const TQString& libName );
/*! \ingroup groupAdmin
\brief Returns the CRYPTPLUG library name.
\return the complete path+name of CRYPTPLUG library that is to
be used by this instance of CryptPlugWrapper.
\sa setLibName
*/
TQString libName() const;
/*! \ingroup groupAdmin
\brief Specifies the external name that is visible in lists,
messages, etc.
*/
void setDisplayName( const TQString& name );
/*! \ingroup groupAdmin
\brief Returns the external name.
\return the external name used for display purposes
*/
TQString displayName() const;
private:
/*! \ingroup groupGeneral
\brief This function does two things: (a) load the lib and (b) set up all internal structures.
The method tries to load the CRYPTPLUG library specified
in the constructor and returns \c true if the both <b>loading
and initializing</b> the internal data structures was successful
and \c false otherwise. Before this function is called,
no other plugin functions should be called; the behavior is
undefined in this case, this rule does not apply to the functions
\c setActive() and \c setLibName().
\param initqStatus will receive the resulting InitqStatus if not NULL
\param errorMsg will receive the system error message if not NULL
\sa initqStatus, deinitialize, CryptPlugWrapper(), ~CryptPlugWrapper
\sa setActive, active
*/
bool initialize( InitqStatus* initqStatus, TQString* errorMsg );
public:
/*! \ingroup groupGeneral
\brief This function unloads the lib and frees all internal structures.
After this function has been called, no other plugin functions
should be called; the behavior is undefined in this case.
\note Deinitializing sets the internal initqStatus value back
to \c IniStatus_undef.
\sa initqStatus, initialize, CryptPlugWrapper, ~CryptPlugWrapper
\sa setActive, active
*/
void deinitialize();
/*! \ingroup groupGeneral
\brief Returns this CRYPTPLUG wrapper's initialization state.
\param errorMsg receives the last system error message, this value
should be ignored if InitqStatus value equals \c IniStatus_Ok.
\return whether the relative library was loaded and initialized
correctly
\sa initialize, deinitialize, CryptPlugWrapper(), ~CryptPlugWrapper
\sa setActive, active
*/
InitqStatus initqStatus( TQString* errorMsg ) const;
/*! \ingroup groupGeneral
\brief This function returns \c true if the
specified feature is available in the plugin, and
\c false otherwise.
Not all plugins will support all features; a complete Sphinx
implementation will support all features contained in the enum,
however.
\note In case this function cannot be executed the system's error
message may be retrieved by calling initqStatus( TQString* ).
\return whether the relative feature is implemented or not
*/
bool hasFeature( ::Feature );
/* \ingroup groupSignAct
* Frees the members of a signature meta data struct, but not the
* signature meta data struct itself as this could be allocated on
* the stack.
*/
void freeSignatureMetaData( CryptPlug::SignatureMetaData* );
/*! \ingroup groupSignAct
\brief Checks whether the signature of a message is
valid.
\c cleartext must never be 0 but be a valid pointer.
If \c *cleartext > 0 then **cleartext specifies the message text
that was signed and \c signaturetext is the signature itself.
If \c *cleartext == 0 is an empty string then \c signaturetext is
supposed to contain an opaque signed message part. After checking the
data and verifying the signature the cleartext of the message will be
returned in \c cleartext. The user must free the respective memory
occupied by *cleartext.
Depending on the configuration, MUAs might not need to use this.
If \c sigmeta is non-null, the
\c SignatureMetaData object pointed to will
contain meta information about the signature after the
function call.
*/
bool checkMessageSignature( char** cleartext,
const char* signaturetext,
bool signatureIsBinary,
int signatureLen,
CryptPlug::SignatureMetaData* sigmeta );
/*! \ingroup groupCryptAct
\brief Tries to decrypt an email message
\c ciphertext and returns the decrypted
message in \c cleartext.
The \c certificate is used for decryption. If
the message could be decrypted, the function returns
\c true, otherwise
\c false.
*/
bool decryptMessage( const char* ciphertext,
bool cipherIsBinary,
int cipherLen,
char** cleartext,
const char* certificate,
int* errId,
char** errTxt );
/*! \ingroup groupCryptAct
\brief Combines the functionality of
\c checkMessageSignature() and
\c decryptMessage().
If \c certificate is \c NULL,
the default certificate will be used. If
\c sigmeta is non-null, the
\c SignatureMetaData object pointed to will
contain meta information about the signature after the
function call.
*/
bool decryptAndCheckMessage( const char* ciphertext,
bool cipherIsBinary,
int cipherLen,
char** cleartext,
const char* certificate,
bool* signatureFound,
CryptPlug::SignatureMetaData* sigmeta,
int* errId,
char** errTxt );
Kleo::KeyListJob * keyListJob( bool remote=false, bool includeSigs=false, bool validate=true ) const;
Kleo::EncryptJob * encryptJob( bool armor=false, bool textmode=false ) const;
Kleo::DecryptJob * decryptJob() const;
Kleo::SignJob * signJob( bool armor=false, bool textMode=false ) const;
Kleo::VerifyDetachedJob * verifyDetachedJob( bool textmode=false) const;
Kleo::VerifyOpaqueJob * verifyOpaqueJob( bool textmode=false ) const;
Kleo::KeyGenerationJob * keyGenerationJob() const;
Kleo::ImportJob * importJob() const;
Kleo::ExportJob * publicKeyExportJob( bool armor=false ) const;
Kleo::ExportJob * secretKeyExportJob( bool armor=false, const TQString& charset = TQString() ) const;
Kleo::DownloadJob * downloadJob( bool armor=false ) const;
Kleo::DeleteJob * deleteJob() const;
Kleo::SignEncryptJob * signEncryptJob( bool armor=false, bool textmode=false ) const;
Kleo::DecryptVerifyJob * decryptVerifyJob( bool textmode=false ) const;
Kleo::RefreshKeysJob * refreshKeysJob() const;
Kleo::SpecialJob * specialJob( const char *, const TQMap<TQString,TQVariant> & ) const { return 0; }
GpgME::ImportResult importCertificate( const char* data, size_t length );
CryptPlug * cryptPlug() const { return _cp; }
private:
TQString _name;
TQString _libName;
TQString _updateURL;
bool _active;
InitqStatus _initqStatus;
TQString _lastError;
CryptPlug* _cp;
// local parameters without representation in cryptplug.h
bool mAlwaysEncryptToSelf;
class Config;
Config * _config;
QGpgMECryptoConfig * _cryptoConfig;
};
#endif // !LIBKLEOPATRA_NO_COMPAT
#endif // cryptplugwrapper_h