gpgme/gpgmeplug/gpgmeplug.c

2916 lines
85 KiB
C

/* -*- Mode: C -*-
$Id$
GPGMEPLUG - an GPGME based cryptography plug-in following
the common CRYPTPLUG specification.
Copyright (C) 2001 by Klarälvdalens Datakonsult AB
Copyright (C) 2002 g10 Code GmbH
GPGMEPLUG is free software; you can redistribute it and/or modify
it under the terms of GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
GPGMEPLUG is distributed in the hope that it will be useful,
it under the terms of GNU General Public License as published by
the Free Software Foundation; version 2 of the License
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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
/*! \file gpgmeplug.c
\brief GPGME implementation of CRYPTPLUG following the
specification located in common API header cryptplug.h.
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 cryptplug.h
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <errno.h>
#include <time.h>
#include <ctype.h>
#ifndef BUG_URL
#define BUG_URL "http:://www.gnupg.org/aegypten/"
#endif
#include "gpgme.h"
#ifndef GPGMEPLUG_PROTOCOL
#define GPGMEPLUG_PROTOCOL GPGME_PROTOCOL_OpenPGP
#endif
/* definitions for signing */
/* 1. opaque signatures (only used for S/MIME). */
#ifndef GPGMEPLUG_OPA_SIGN_MAKE_MIME_OBJECT
#define GPGMEPLUG_OPA_SIGN_INCLUDE_CLEARTEXT false
#define GPGMEPLUG_OPA_SIGN_MAKE_MIME_OBJECT false
#define GPGMEPLUG_OPA_SIGN_MAKE_MULTI_MIME false
#define GPGMEPLUG_OPA_SIGN_CTYPE_MAIN ""
#define GPGMEPLUG_OPA_SIGN_CDISP_MAIN ""
#define GPGMEPLUG_OPA_SIGN_CTENC_MAIN ""
#define GPGMEPLUG_OPA_SIGN_CTYPE_VERSION ""
#define GPGMEPLUG_OPA_SIGN_CDISP_VERSION ""
#define GPGMEPLUG_OPA_SIGN_CTENC_VERSION ""
#define GPGMEPLUG_OPA_SIGN_BTEXT_VERSION ""
#define GPGMEPLUG_OPA_SIGN_CTYPE_CODE ""
#define GPGMEPLUG_OPA_SIGN_CDISP_CODE ""
#define GPGMEPLUG_OPA_SIGN_CTENC_CODE ""
#define GPGMEPLUG_OPA_SIGN_FLAT_PREFIX ""
#define GPGMEPLUG_OPA_SIGN_FLAT_SEPARATOR ""
#define GPGMEPLUG_OPA_SIGN_FLAT_POSTFIX ""
#endif
/* 2. detached signatures (used for S/MIME and for OpenPGP) */
#ifndef GPGMEPLUG_DET_SIGN_MAKE_MIME_OBJECT
#define GPGMEPLUG_DET_SIGN_INCLUDE_CLEARTEXT true
#define GPGMEPLUG_DET_SIGN_MAKE_MIME_OBJECT true
#define GPGMEPLUG_DET_SIGN_MAKE_MULTI_MIME true
#define GPGMEPLUG_DET_SIGN_CTYPE_MAIN "multipart/signed;protocol=application/pgp-signature;micalg=pgp-sha1"
#define GPGMEPLUG_DET_SIGN_CDISP_MAIN ""
#define GPGMEPLUG_DET_SIGN_CTENC_MAIN ""
#define GPGMEPLUG_DET_SIGN_CTYPE_VERSION ""
#define GPGMEPLUG_DET_SIGN_CDISP_VERSION ""
#define GPGMEPLUG_DET_SIGN_CTENC_VERSION ""
#define GPGMEPLUG_DET_SIGN_BTEXT_VERSION ""
#define GPGMEPLUG_DET_SIGN_CTYPE_CODE "application/pgp-signature"
#define GPGMEPLUG_DET_SIGN_CDISP_CODE ""
#define GPGMEPLUG_DET_SIGN_CTENC_CODE ""
#define GPGMEPLUG_DET_SIGN_FLAT_PREFIX ""
#define GPGMEPLUG_DET_SIGN_FLAT_SEPARATOR ""
#define GPGMEPLUG_DET_SIGN_FLAT_POSTFIX ""
#endif
/* 3. common definitions for opaque and detached signing */
#ifndef __GPGMEPLUG_SIGNATURE_CODE_IS_BINARY
#define __GPGMEPLUG_SIGNATURE_CODE_IS_BINARY false
#endif
#define __GPGMEPLUG_ERROR_CLEARTEXT_IS_ZERO "Error: Cannot run checkMessageSignature() with cleartext == 0"
/* definitions for encoding */
#ifndef GPGMEPLUG_ENC_MAKE_MIME_OBJECT
#define GPGMEPLUG_ENC_INCLUDE_CLEARTEXT false
#define GPGMEPLUG_ENC_MAKE_MIME_OBJECT true
#define GPGMEPLUG_ENC_MAKE_MULTI_MIME true
#define GPGMEPLUG_ENC_CTYPE_MAIN "multipart/encrypted; protocol=application/pgp-encrypted"
#define GPGMEPLUG_ENC_CDISP_MAIN ""
#define GPGMEPLUG_ENC_CTENC_MAIN ""
#define GPGMEPLUG_ENC_CTYPE_VERSION "application/pgp-encrypted"
#define GPGMEPLUG_ENC_CDISP_VERSION "attachment"
#define GPGMEPLUG_ENC_CTENC_VERSION ""
#define GPGMEPLUG_ENC_BTEXT_VERSION "Version: 1"
#define GPGMEPLUG_ENC_CTYPE_CODE "application/octet-stream"
#define GPGMEPLUG_ENC_CDISP_CODE "inline; filename=\"msg.asc\""
#define GPGMEPLUG_ENC_CTENC_CODE ""
#define GPGMEPLUG_ENC_FLAT_PREFIX ""
#define GPGMEPLUG_ENC_FLAT_SEPARATOR ""
#define GPGMEPLUG_ENC_FLAT_POSTFIX ""
#define __GPGMEPLUG_ENCRYPTED_CODE_IS_BINARY false
#endif
/* Note: The following specification will result in
function encryptAndSignMessage() producing
_empty_ mails.
This must be changed as soon as our plugin
is supporting the encryptAndSignMessage() function. */
#ifndef GPGMEPLUG_ENCSIGN_MAKE_MIME_OBJECT
#define GPGMEPLUG_ENCSIGN_INCLUDE_CLEARTEXT false
#define GPGMEPLUG_ENCSIGN_MAKE_MIME_OBJECT false
#define GPGMEPLUG_ENCSIGN_MAKE_MULTI_MIME false
#define GPGMEPLUG_ENCSIGN_CTYPE_MAIN ""
#define GPGMEPLUG_ENCSIGN_CDISP_MAIN ""
#define GPGMEPLUG_ENCSIGN_CTENC_MAIN ""
#define GPGMEPLUG_ENCSIGN_CTYPE_VERSION ""
#define GPGMEPLUG_ENCSIGN_CDISP_VERSION ""
#define GPGMEPLUG_ENCSIGN_CTENC_VERSION ""
#define GPGMEPLUG_ENCSIGN_BTEXT_VERSION ""
#define GPGMEPLUG_ENCSIGN_CTYPE_CODE ""
#define GPGMEPLUG_ENCSIGN_CDISP_CODE ""
#define GPGMEPLUG_ENCSIGN_CTENC_CODE ""
#define GPGMEPLUG_ENCSIGN_FLAT_PREFIX ""
#define GPGMEPLUG_ENCSIGN_FLAT_SEPARATOR ""
#define GPGMEPLUG_ENCSIGN_FLAT_POSTFIX ""
#endif
#include "cryptplug.h"
#define days_from_seconds(x) ((x)/86400)
typedef struct {
const char* bugURL;
const char* signatureKeyCertificate;
SignatureAlgorithm signatureAlgorithm;
SignatureCompoundMode signatureCompoundMode;
SendCertificates sendCertificates;
SignEmail signEmail;
bool saveSentSignatures;
bool warnNoCertificate;
PinRequests numPINRequests;
bool checkSignatureCertificatePathToRoot;
bool signatureUseCRLs;
EncryptionAlgorithm encryptionAlgorithm;
EncryptEmail encryptEmail;
bool saveMessagesEncrypted;
bool checkEncryptionCertificatePathToRoot;
bool encryptionUseCRLs;
bool encryptionCRLExpiryNearWarning;
int encryptionCRLNearExpiryInterval;
struct DirectoryServer *directoryServers;
unsigned int numDirectoryServers;
CertificateSource certificateSource;
CertificateSource cRLSource;
bool warnSendUnsigned;
int numPINRequestsInterval;
bool signatureCertificateExpiryNearWarning;
int signatureCertificateExpiryNearInterval;
bool cACertificateExpiryNearWarning;
int cACertificateExpiryNearInterval;
bool rootCertificateExpiryNearWarning;
int rootCertificateExpiryNearInterval;
bool warnSendUnencrypted;
bool checkCertificatePath;
bool receiverCertificateExpiryNearWarning;
int receiverCertificateExpiryNearWarningInterval;
bool certificateInChainExpiryNearWarning;
int certificateInChainExpiryNearWarningInterval;
bool receiverEmailAddressNotInCertificateWarning;
const char* libVersion; /* a statically allocated string with the GPGME Version used */
} Config;
Config config;
#define NEAR_EXPIRY 14
/* Max number of parts in a DN */
#define MAX_GPGME_IDX 20
/* some macros to replace ctype ones and avoid locale problems */
#define spacep(p) (*(p) == ' ' || *(p) == '\t')
#define digitp(p) (*(p) >= '0' && *(p) <= '9')
#define hexdigitp(a) (digitp (a) \
|| (*(a) >= 'A' && *(a) <= 'F') \
|| (*(a) >= 'a' && *(a) <= 'f'))
/* the atoi macros assume that the buffer has only valid digits */
#define atoi_1(p) (*(p) - '0' )
#define atoi_2(p) ((atoi_1(p) * 10) + atoi_1((p)+1))
#define atoi_4(p) ((atoi_2(p) * 100) + atoi_2((p)+2))
#define xtoi_1(p) (*(p) <= '9'? (*(p)- '0'): \
*(p) <= 'F'? (*(p)-'A'+10):(*(p)-'a'+10))
#define xtoi_2(p) ((xtoi_1(p) * 16) + xtoi_1((p)+1))
static void *
xmalloc (size_t n)
{
char *p = malloc (n);
if (!p)
{
fputs ("\nfatal: out of core\n", stderr);
exit (4);
}
return p;
}
/* Please: Don't call an allocation function xfoo when it may return NULL. */
/* Wrong: #define xstrdup( x ) (x)?strdup(x):0 */
/* Right: */
static char *
xstrdup (const char *string)
{
char *p = xmalloc (strlen (string)+1);
strcpy (p, string);
return p;
}
bool initialize()
{
int engineCheckVersion = gpgme_engine_check_version (GPGMEPLUG_PROTOCOL);
config.bugURL = malloc( strlen( BUG_URL ) + 1 );
strcpy( (char* )config.bugURL, BUG_URL );
config.signatureKeyCertificate = malloc( 1 );
strcpy( (char* )config.signatureKeyCertificate, "" );
config.signatureAlgorithm = SignAlg_SHA1;
if( GPGMEPLUG_PROTOCOL == GPGME_PROTOCOL_CMS )
config.signatureCompoundMode = SignatureCompoundMode_Opaque;
else
config.signatureCompoundMode = SignatureCompoundMode_Detached;
config.sendCertificates = SendCert_SendChainWithRoot;
config.signEmail = SignEmail_SignAll;
config.saveSentSignatures = true;
config.warnNoCertificate = true;
config.numPINRequests = PinRequest_Always;
config.checkSignatureCertificatePathToRoot = true;
config.signatureUseCRLs = true;
config.encryptionAlgorithm = EncryptAlg_RSA;
config.encryptEmail = EncryptEmail_Ask;
config.saveMessagesEncrypted = true;
config.checkEncryptionCertificatePathToRoot = true;
config.encryptionUseCRLs = true;
config.encryptionCRLExpiryNearWarning = true;
config.encryptionCRLNearExpiryInterval = NEAR_EXPIRY;
config.directoryServers = NULL;
config.numDirectoryServers = 0;
config.certificateSource = CertSrc_Server;
config.cRLSource = CertSrc_Server;
config.warnSendUnsigned = true;
config.numPINRequestsInterval = NEAR_EXPIRY;
config.signatureCertificateExpiryNearWarning = true;
config.signatureCertificateExpiryNearInterval = NEAR_EXPIRY;
config.cACertificateExpiryNearWarning = true;
config.cACertificateExpiryNearInterval = NEAR_EXPIRY;
config.rootCertificateExpiryNearWarning = true;
config.rootCertificateExpiryNearInterval = NEAR_EXPIRY;
config.warnSendUnencrypted = false;
config.checkCertificatePath = true;
config.receiverCertificateExpiryNearWarning = true;
config.receiverCertificateExpiryNearWarningInterval = NEAR_EXPIRY;
config.certificateInChainExpiryNearWarning = true;
config.certificateInChainExpiryNearWarningInterval = NEAR_EXPIRY;
config.receiverEmailAddressNotInCertificateWarning = true;
config.libVersion = gpgme_check_version (NULL);
if( engineCheckVersion != GPGME_No_Error )
fprintf( stderr, "gpgmeplug initialize() returned %i\n", engineCheckVersion );
return (engineCheckVersion == GPGME_No_Error);
};
void deinitialize()
{
unsigned int i;
for( i = 0; i < config.numDirectoryServers; ++i ) {
free( (char *)config.directoryServers[i].servername );
free( (char *)config.directoryServers[i].description );
}
free( config.directoryServers );
}
bool hasFeature( Feature flag )
{
/* our own plugins are supposed to support everything */
switch ( flag ) {
case Feature_SignMessages: return true;
case Feature_VerifySignatures: return true;
case Feature_EncryptMessages: return true;
case Feature_DecryptMessages: return true;
case Feature_SendCertificates: return true;
case Feature_WarnSignCertificateExpiry: return true;
case Feature_WarnSignEmailNotInCertificate: return true;
case Feature_PinEntrySettings: return true;
case Feature_StoreMessagesWithSigs: return true;
case Feature_EncryptionCRLs: return true;
case Feature_WarnEncryptCertificateExpiry: return true;
case Feature_WarnEncryptEmailNotInCertificate: return true;
case Feature_StoreMessagesEncrypted: return true;
case Feature_CheckCertificatePath: return true;
case Feature_CertificateDirectoryService: return false;
case Feature_CRLDirectoryService: return false;
/* undefined or not yet implemented: */
case Feature_undef: return false;
default: return false;
}
}
const char* libVersion(){ return config.libVersion; }
const char* bugURL(){ return config.bugURL; }
void unsafeStationery( void** pixmap, const char** menutext, char* accel,
const char** tooltip, const char** statusbartext ){}
void signedStationery( void** pixmap, const char** menutext, char* accel,
const char** tooltip, const char** statusbartext ){}
void encryptedStationery( void** pixmap, const char**
menutext, char* accel,
const char** tooltip, const char** statusbartext ){}
void signedEncryptedStationery( void** pixmap, const char**
menutext, char* accel,
const char** tooltip, const char** statusbartext ){}
const char* signatureConfigurationDialog(){ return 0; }
const char* signatureKeySelectionDialog(){ return 0; }
const char* signatureAlgorithmDialog(){ return 0; }
const char* signatureHandlingDialog(){ return 0; }
void setSignatureKeyCertificate( const char* certificate )
{
config.signatureKeyCertificate = certificate;
}
const char* signatureKeyCertificate()
{
return config.signatureKeyCertificate;
}
void setSignatureAlgorithm( SignatureAlgorithm sigAlg )
{
config.signatureAlgorithm = sigAlg;
}
SignatureAlgorithm signatureAlgorithm()
{
return config.signatureAlgorithm;
}
void setSignatureCompoundMode( SignatureCompoundMode signComp )
{
config.signatureCompoundMode = signComp;
}
SignatureCompoundMode signatureCompoundMode()
{
return config.signatureCompoundMode;
}
void setSendCertificates( SendCertificates sendCert )
{
config.sendCertificates = sendCert;
}
SendCertificates sendCertificates()
{
return config.sendCertificates;
}
void setSignEmail( SignEmail signMail )
{
config.signEmail = signMail;
}
SignEmail signEmail()
{
return config.signEmail;
}
void setWarnSendUnsigned( bool flag )
{
config.warnSendUnsigned = flag;
}
bool warnSendUnsigned()
{
return config.warnSendUnsigned;
}
void setSaveSentSignatures( bool flag )
{
config.saveSentSignatures = flag;
}
bool saveSentSignatures()
{
return config.saveSentSignatures;
}
void setWarnNoCertificate( bool flag )
{
config.warnNoCertificate = flag;
}
bool warnNoCertificate()
{
return config.warnNoCertificate;
}
bool isEmailInCertificate( const char* email, const char* fingerprint )
{
bool bOk = false;
if( fingerprint ){
GpgmeCtx ctx;
GpgmeError err;
GpgmeKey rKey;
int UID_idx;
const char* attr_string;
int fprLen = strlen( fingerprint );
int emailCount = 0;
fprintf( stderr, "gpgmeplug isEmailInCertificate looking for fingerprint %s\n", fingerprint );
gpgme_new( &ctx );
gpgme_set_protocol( ctx, GPGMEPLUG_PROTOCOL );
err = gpgme_op_keylist_start( ctx, fingerprint, 0 );
if ( GPGME_No_Error == err ) {
err = gpgme_op_keylist_next( ctx, &rKey );
gpgme_op_keylist_end( ctx );
if ( GPGME_No_Error == err ) {
/* extract email(s) */
for( UID_idx = 0;
(attr_string = gpgme_key_get_string_attr(
rKey, GPGME_ATTR_EMAIL, 0, UID_idx ) );
++UID_idx ){
if (attr_string && *attr_string) {
++emailCount;
fprintf( stderr, "gpgmeplug isEmailInCertificate found email: %s\n", attr_string );
if( 0 == strcasecmp(attr_string, email) ){
bOk = true;
break;
}else{
attr_string = gpgme_key_get_string_attr(
rKey, GPGME_ATTR_USERID, 0, UID_idx );
if (attr_string && *attr_string == '<'){
++attr_string;
if( 0 == strncasecmp(attr_string, email, fprLen) ){
bOk = true;
break;
}
}
}
}
}
if( !emailCount )
fprintf( stderr, "gpgmeplug isEmailInCertificate found NO EMAIL\n" );
else if( !bOk )
fprintf( stderr, "gpgmeplug isEmailInCertificate found NO MATCHING email\n" );
gpgme_key_release( rKey );
}else{
fprintf( stderr, "gpgmeplug isEmailInCertificate found NO CERTIFICATE for fingerprint %s\n", fingerprint );
}
}else{
fprintf( stderr, "gpgmeplug isEmailInCertificate could NOT open KEYLIST for fingerprint %s\n", fingerprint );
}
gpgme_release( ctx );
}else{
fprintf( stderr, "gpgmeplug isEmailInCertificate called with parameter FINGERPRINT being EMPTY\n" );
}
return bOk;
}
void setNumPINRequests( PinRequests reqMode )
{
config.numPINRequests = reqMode;
/* PENDING(g10) Put this value into gpg and make it ask for the pin
according to this. Note that there is also
setNumPINRequestsInterval() which is only used if reqMode ==
PinRequest_AfterMinutes.
*/
}
PinRequests numPINRequests()
{
return config.numPINRequests;
}
void setNumPINRequestsInterval( int interval )
{
config.numPINRequestsInterval = interval;
/* PENDING(g10) Put this value into gpg and make it ask for the pin
according to this. Note that this should only be used if
config.numPINRequests (set with setNumPINRequests()) has the
value PinRequest_AfterMinutes.
*/
}
int numPINRequestsInterval()
{
return config.numPINRequestsInterval;
}
void setCheckSignatureCertificatePathToRoot( bool flag )
{
config.checkSignatureCertificatePathToRoot = flag;
}
bool checkSignatureCertificatePathToRoot()
{
return config.checkSignatureCertificatePathToRoot;
}
void setSignatureUseCRLs( bool flag )
{
config.signatureUseCRLs = flag;
}
bool signatureUseCRLs()
{
return config.signatureUseCRLs;
}
void setSignatureCertificateExpiryNearWarning( bool flag )
{
config.signatureCertificateExpiryNearWarning = flag;
}
bool signatureCertificateExpiryNearWarning( void )
{
return config.signatureCertificateExpiryNearWarning;
}
int signatureCertificateDaysLeftToExpiry( const char* certificate )
{
GpgmeCtx ctx;
GpgmeError err;
GpgmeKey rKey;
int daysLeft = CRYPTPLUG_CERT_DOES_NEVER_EXPIRE;
gpgme_new( &ctx );
gpgme_set_protocol( ctx, GPGMEPLUG_PROTOCOL );
err = gpgme_op_keylist_start( ctx, certificate, 0 );
if ( GPGME_No_Error == err ) {
err = gpgme_op_keylist_next( ctx, &rKey );
gpgme_op_keylist_end( ctx );
if ( GPGME_No_Error == err ) {
time_t expire_time = gpgme_key_get_ulong_attr(
rKey, GPGME_ATTR_EXPIRE, NULL, 0 );
if ( 0 != expire_time ) {
time_t cur_time = time (NULL);
if( cur_time > expire_time ) {
daysLeft = days_from_seconds(cur_time - expire_time);
daysLeft *= -1;
}
else
daysLeft = days_from_seconds(expire_time - cur_time);
}
gpgme_key_release( rKey );
}
}
gpgme_release( ctx );
/*
fprintf( stderr, "gpgmeplug signatureCertificateDaysLeftToExpiry returned %d\n", daysLeft );
*/
return daysLeft;
}
void setSignatureCertificateExpiryNearInterval( int interval )
{
config.signatureCertificateExpiryNearInterval = interval;
}
int signatureCertificateExpiryNearInterval( void )
{
return config.signatureCertificateExpiryNearInterval;
}
void setCACertificateExpiryNearWarning( bool flag )
{
config.cACertificateExpiryNearWarning = flag;
}
bool caCertificateExpiryNearWarning( void )
{
return config.cACertificateExpiryNearWarning;
}
int caCertificateDaysLeftToExpiry( const char* certificate )
{
/* PENDING(g10)
Please return the number of days that are left until the
CA certificate for the certificate specified in the parameter
certificate expires.
*/
/*
GpgmeCtx ctx;
GpgmeError err;
GpgmeKey rKey;
time_t daysLeft = 0;
gpgme_new( &ctx );
gpgme_set_protocol( ctx, GPGMEPLUG_PROTOCOL );
err = gpgme_op_keylist_start( ctx, certificate, 0 );
if ( GPGME_No_Error == err ) {
err = gpgme_op_keylist_next( ctx, &rKey );
gpgme_op_keylist_end( ctx );
if ( GPGME_No_Error == err ) {
time_t expire_time = gpgme_key_get_ulong_attr(
rKey,
??????????????????????? GPGME_ATTR_EXPIRE, ???????????????????????
NULL, 0 );
time_t cur_time = time (NULL);
daysLeft = days_from_seconds(expire_time - cur_time);
gpgme_key_release( rKey );
}
}
gpgme_release( ctx );
// fprintf( stderr, "gpgmeplug caCertificateDaysLeftToExpiry returned %d\n", daysLeft );
return daysLeft;
*/
return 10; /* dummy that triggers a warning in the MUA */
}
void setCACertificateExpiryNearInterval( int interval )
{
config.cACertificateExpiryNearInterval = interval;
}
int caCertificateExpiryNearInterval( void )
{
return config.cACertificateExpiryNearInterval;
}
void setRootCertificateExpiryNearWarning( bool flag )
{
config.rootCertificateExpiryNearWarning = flag;
}
bool rootCertificateExpiryNearWarning( void )
{
return config.rootCertificateExpiryNearWarning;
}
int rootCertificateDaysLeftToExpiry( const char* certificate )
{
/* PENDING(g10)
Please return the number of days that are left until the
root certificate for the certificate specified in the parameter
certificate expires.
*/
/*
GpgmeCtx ctx;
GpgmeError err;
GpgmeKey rKey;
time_t daysLeft = 0;
gpgme_new( &ctx );
gpgme_set_protocol( ctx, GPGMEPLUG_PROTOCOL );
err = gpgme_op_keylist_start( ctx, certificate, 0 );
if ( GPGME_No_Error == err ) {
err = gpgme_op_keylist_next( ctx, &rKey );
gpgme_op_keylist_end( ctx );
if ( GPGME_No_Error == err ) {
time_t expire_time = gpgme_key_get_ulong_attr(
rKey,
??????????????????????? GPGME_ATTR_EXPIRE, ???????????????????????
NULL, 0 );
time_t cur_time = time (NULL);
daysLeft = days_from_seconds(expire_time - cur_time);
gpgme_key_release( rKey );
}
}
gpgme_release( ctx );
// fprintf( stderr, "gpgmeplug rootCertificateDaysLeftToExpiry returned %d\n", daysLeft );
return daysLeft;
*/
return 10; /* dummy that triggers a warning in the MUA */
}
void setRootCertificateExpiryNearInterval( int interval )
{
config.rootCertificateExpiryNearInterval = interval;
}
int rootCertificateExpiryNearInterval( void )
{
return config.rootCertificateExpiryNearInterval;
}
const char* encryptionConfigurationDialog(){ return 0; }
const char* encryptionAlgorithmDialog(){ return 0; }
const char* encryptionHandlingDialog(){ return 0; }
const char* encryptionReceiverDialog(){ return 0; }
void setEncryptionAlgorithm( EncryptionAlgorithm cryptAlg )
{
config.encryptionAlgorithm = cryptAlg;
}
EncryptionAlgorithm encryptionAlgorithm()
{
return config.encryptionAlgorithm;
}
void setEncryptEmail( EncryptEmail cryptMode )
{
config.encryptEmail = cryptMode;
}
EncryptEmail encryptEmail()
{
return config.encryptEmail;
}
void setWarnSendUnencrypted( bool flag )
{
config.warnSendUnencrypted = flag;
}
bool warnSendUnencrypted()
{
return config.warnSendUnencrypted;
}
void setSaveMessagesEncrypted( bool flag )
{
config.saveMessagesEncrypted = flag;
}
bool saveMessagesEncrypted()
{
return config.saveMessagesEncrypted;
}
void setCheckCertificatePath( bool flag )
{
config.checkCertificatePath = flag;
}
bool checkCertificatePath()
{
return config.checkCertificatePath;
}
void setCheckEncryptionCertificatePathToRoot( bool flag )
{
config.checkEncryptionCertificatePathToRoot = flag;
}
bool checkEncryptionCertificatePathToRoot()
{
return config.checkEncryptionCertificatePathToRoot;
}
void setReceiverCertificateExpiryNearWarning( bool flag )
{
config.receiverCertificateExpiryNearWarning = flag;
}
bool receiverCertificateExpiryNearWarning()
{
return config.receiverCertificateExpiryNearWarning;
}
int receiverCertificateDaysLeftToExpiry( const char* certificate )
{
GpgmeCtx ctx;
GpgmeError err;
GpgmeKey rKey;
int daysLeft = CRYPTPLUG_CERT_DOES_NEVER_EXPIRE;
gpgme_new( &ctx );
gpgme_set_protocol( ctx, GPGMEPLUG_PROTOCOL );
err = gpgme_op_keylist_start( ctx, certificate, 0 );
if ( GPGME_No_Error == err ) {
err = gpgme_op_keylist_next( ctx, &rKey );
gpgme_op_keylist_end( ctx );
if ( GPGME_No_Error == err ) {
time_t expire_time = gpgme_key_get_ulong_attr(
rKey,GPGME_ATTR_EXPIRE, NULL, 0 );
if ( 0 != expire_time ) {
time_t cur_time = time (NULL);
if( cur_time > expire_time ) {
daysLeft = days_from_seconds(cur_time - expire_time);
daysLeft *= -1;
}
else
daysLeft = days_from_seconds(expire_time - cur_time);
}
gpgme_key_release( rKey );
}
}
gpgme_release( ctx );
/*
fprintf( stderr, "gpgmeplug receiverCertificateDaysLeftToExpiry returned %d\n", daysLeft );
*/
return daysLeft;
}
void setReceiverCertificateExpiryNearWarningInterval( int interval )
{
config.receiverCertificateExpiryNearWarningInterval = interval;
}
int receiverCertificateExpiryNearWarningInterval()
{
return config.receiverCertificateExpiryNearWarningInterval;
}
void setCertificateInChainExpiryNearWarning( bool flag )
{
config.certificateInChainExpiryNearWarning = flag;
}
bool certificateInChainExpiryNearWarning()
{
return config.certificateInChainExpiryNearWarning;
}
int certificateInChainDaysLeftToExpiry( const char* certificate )
{
/* PENDING(g10)
Please return the number of days that are left until the
the first certificate in the chain of the specified certificate
expires.
*/
return 10; /* dummy that triggers a warning in the MUA */
}
void setCertificateInChainExpiryNearWarningInterval( int interval )
{
config.certificateInChainExpiryNearWarningInterval = interval;
}
int certificateInChainExpiryNearWarningInterval()
{
return config.certificateInChainExpiryNearWarningInterval;
}
void setReceiverEmailAddressNotInCertificateWarning( bool flag )
{
config.receiverEmailAddressNotInCertificateWarning = flag;
}
bool receiverEmailAddressNotInCertificateWarning()
{
return config.receiverEmailAddressNotInCertificateWarning;
}
void setEncryptionUseCRLs( bool flag )
{
config.encryptionUseCRLs = flag;
/* PENDING(g10) Store this setting in gpgme and use it. If true,
every certificate used for encryption should be checked against
applicable CRLs.
*/
}
bool encryptionUseCRLs()
{
return config.encryptionUseCRLs;
}
int encryptionCRLsDaysLeftToExpiry()
{
/* PENDING(g10)
Please return the number of days that are left until the
CRL used for encryption expires.
*/
return 10; /* dummy that triggers a warning in the MUA */
}
void setEncryptionCRLExpiryNearWarning( bool flag )
{
config.encryptionCRLExpiryNearWarning = flag;
}
bool encryptionCRLExpiryNearWarning()
{
return config.encryptionCRLExpiryNearWarning;
}
void setEncryptionCRLNearExpiryInterval( int interval )
{
config.encryptionCRLNearExpiryInterval = interval;
}
int encryptionCRLNearExpiryInterval()
{
return config.encryptionCRLNearExpiryInterval;
}
const char* directoryServiceConfigurationDialog(){ return 0; }
void appendDirectoryServer( const char* servername,
int port,
const char* description )
{
struct DirectoryServer *newServers = NULL;
newServers = realloc( config.directoryServers,
(1+config.numDirectoryServers) * sizeof *newServers );
if( newServers ) {
config.directoryServers = newServers;
newServers[ config.numDirectoryServers ].servername =
malloc( 1+strlen( servername ) );
if( newServers[ config.numDirectoryServers ].servername ) {
strcpy( (char *)newServers[ config.numDirectoryServers ].servername,
servername );
newServers[ config.numDirectoryServers ].description =
malloc( 1+strlen( description ) );
if( newServers[ config.numDirectoryServers ].description ) {
strcpy( (char *)newServers[ config.numDirectoryServers ].description,
description );
newServers[ config.numDirectoryServers ].port = port;
config.numDirectoryServers += 1;
}
}
}
}
void setDirectoryServers( struct DirectoryServer server[], unsigned int size )
{
unsigned int i;
int oldSize = config.numDirectoryServers;
struct DirectoryServer *newServers = NULL;
newServers = calloc ( size, sizeof *newServers );
if( newServers ) {
for( i=0; i < oldSize; ++i ) {
free( (char *)config.directoryServers[i].servername );
free( (char *)config.directoryServers[i].description );
}
free( config.directoryServers );
for( i=0; i < size; ++i ) {
newServers[ i ].servername = malloc( 1+strlen( server[i].servername ) );
if( newServers[ i ].servername ) {
strcpy( (char *)newServers[ i ].servername, server[i].servername );
newServers[ i ].description = malloc( 1+strlen( server[i].description ) );
if( newServers[ i ].description ) {
strcpy( (char *)newServers[ i ].description, server[i].description );
newServers[ i ].port = server[i].port;
}
}
}
config.directoryServers = newServers;
config.numDirectoryServers = size;
}
}
struct DirectoryServer * directoryServers( int* numServers )
{
if( numServers )
*numServers = config.numDirectoryServers;
return config.directoryServers;
};
void setCertificateSource( CertificateSource source )
{
config.certificateSource = source;
}
CertificateSource certificateSource()
{
return config.certificateSource;
}
void setCRLSource( CertificateSource source )
{
config.cRLSource = source;
}
CertificateSource crlSource()
{
return config.cRLSource;
}
bool certificateValidity( const char* certificate,
int* level ){ return true; }
void storeNewCharPtr( char** dest, const char* src )
{
int sLen = strlen( src );
*dest = xmalloc( sLen + 1 );
strcpy( *dest, src );
}
bool signMessage( const char* cleartext,
char** ciphertext,
const size_t* cipherLen,
const char* certificate,
struct StructuringInfo* structuring,
int* errId,
char** errTxt )
{
bool bIsOpaque;
GpgmeCtx ctx;
GpgmeError err;
GpgmeKey rKey;
GpgmeData data, sig;
char* rSig = 0;
bool bOk = false;
int sendCerts = 1;
init_StructuringInfo( structuring );
if( !ciphertext )
return false;
err = gpgme_new (&ctx);
gpgme_set_protocol (ctx, GPGMEPLUG_PROTOCOL);
gpgme_set_armor (ctx, __GPGMEPLUG_SIGNATURE_CODE_IS_BINARY ? 0 : 1);
/* gpgme_set_textmode (ctx, 1); */
switch ( config.sendCertificates ) {
case SendCert_undef:
break;
case SendCert_DontSend:
sendCerts = 0;
break;
case SendCert_SendOwn:
sendCerts = 1;
break;
case SendCert_SendChainWithoutRoot:
sendCerts = -2;
break;
case SendCert_SendChainWithRoot:
sendCerts = -1;
break;
default:
sendCerts = 0;
break;
}
gpgme_set_include_certs (ctx, sendCerts);
/* select the signer's key if provided */
if (certificate != 0) {
err = gpgme_op_keylist_start(ctx, certificate, 0);
while (err == GPGME_No_Error) {
err = gpgme_op_keylist_next(ctx, &rKey);
if (err == GPGME_No_Error) {
unsigned long u;
u = gpgme_key_get_ulong_attr(rKey, GPGME_ATTR_CAN_SIGN, 0, 0);
if( u ) {
// const char* s;
// s = gpgme_key_get_string_attr(rKey, GPGME_ATTR_FPR, 0, 0);
// fprintf( stderr, "gpgmeplug signMessage signing with key: %s\n", s );
/* clear existing signers */
gpgme_signers_clear(ctx);
/* set the signing key */
gpgme_signers_add(ctx, rKey);
/* we only support one signer for now */
break;
}
}
}
gpgme_op_keylist_end(ctx);
}
/* PENDING(g10) Implement this
gpgme_set_signature_algorithm( ctx, config.signatureAlgorithm )
--> This does not make sense. The algorithm is a property of
the certificate used [wk 2002-03-23] */
gpgme_data_new_from_mem (&data, cleartext,
strlen( cleartext ), 1 );
gpgme_data_new ( &sig );
/* NOTE: Currently we support Opaque signed messages only for S/MIME,
but not for OpenPGP mode! */
if( GPGMEPLUG_PROTOCOL == GPGME_PROTOCOL_CMS )
bIsOpaque = (SignatureCompoundMode_Opaque == signatureCompoundMode());
else
bIsOpaque = false;
err = gpgme_op_sign ( ctx,
data,
sig,
bIsOpaque
? GPGME_SIG_MODE_NORMAL
: GPGME_SIG_MODE_DETACH );
if ( err == GPGME_No_Error ) {
if( __GPGMEPLUG_SIGNATURE_CODE_IS_BINARY ) {
*ciphertext = gpgme_data_release_and_get_mem( sig, (size_t*)cipherLen );
bOk = true;
}
else {
rSig = gpgme_data_release_and_get_mem( sig, (size_t*)cipherLen );
*ciphertext = malloc( *cipherLen + 1 );
if( *ciphertext ) {
if( *cipherLen ) {
bOk = true;
strncpy((char*)*ciphertext, rSig, *cipherLen );
}
(*ciphertext)[*cipherLen] = '\0';
}
free( rSig );
}
}
else {
gpgme_data_release( sig );
/*
*ciphertext = malloc( 70 );
strcpy((char*)*ciphertext, "xyz\nsig-dummy\nzyx" );
(*ciphertext)[17] = '\0';
err = 0;
{
*/
*ciphertext = 0;
fprintf( stderr, "\n\n gpgme_op_sign() returned this error code: %i\n\n", err );
if( errId )
*errId = err;
if( errTxt ) {
const char* _errTxt = gpgme_strerror( err );
*errTxt = malloc( strlen( _errTxt ) + 1 );
if( *errTxt )
strcpy(*errTxt, _errTxt );
}
/*
}
*/
}
gpgme_data_release( data );
gpgme_release (ctx);
if( bOk && structuring ) {
if( bIsOpaque ) {
structuring->includeCleartext = GPGMEPLUG_OPA_SIGN_INCLUDE_CLEARTEXT;
structuring->makeMimeObject = GPGMEPLUG_OPA_SIGN_MAKE_MIME_OBJECT;
if( structuring->makeMimeObject ) {
structuring->makeMultiMime = GPGMEPLUG_OPA_SIGN_MAKE_MULTI_MIME;
storeNewCharPtr( &structuring->contentTypeMain,
GPGMEPLUG_OPA_SIGN_CTYPE_MAIN );
storeNewCharPtr( &structuring->contentDispMain,
GPGMEPLUG_OPA_SIGN_CDISP_MAIN );
storeNewCharPtr( &structuring->contentTEncMain,
GPGMEPLUG_OPA_SIGN_CTENC_MAIN );
if( structuring->makeMultiMime ) {
storeNewCharPtr( &structuring->contentTypeVersion,
GPGMEPLUG_OPA_SIGN_CTYPE_VERSION );
storeNewCharPtr( &structuring->contentDispVersion,
GPGMEPLUG_OPA_SIGN_CDISP_VERSION );
storeNewCharPtr( &structuring->contentTEncVersion,
GPGMEPLUG_OPA_SIGN_CTENC_VERSION );
storeNewCharPtr( &structuring->bodyTextVersion,
GPGMEPLUG_OPA_SIGN_BTEXT_VERSION );
storeNewCharPtr( &structuring->contentTypeCode,
GPGMEPLUG_OPA_SIGN_CTYPE_CODE );
storeNewCharPtr( &structuring->contentDispCode,
GPGMEPLUG_OPA_SIGN_CDISP_CODE );
storeNewCharPtr( &structuring->contentTEncCode,
GPGMEPLUG_OPA_SIGN_CTENC_CODE );
}
} else {
storeNewCharPtr( &structuring->flatTextPrefix,
GPGMEPLUG_OPA_SIGN_FLAT_PREFIX );
storeNewCharPtr( &structuring->flatTextSeparator,
GPGMEPLUG_OPA_SIGN_FLAT_SEPARATOR );
storeNewCharPtr( &structuring->flatTextPostfix,
GPGMEPLUG_OPA_SIGN_FLAT_POSTFIX );
}
} else {
structuring->includeCleartext = GPGMEPLUG_DET_SIGN_INCLUDE_CLEARTEXT;
structuring->makeMimeObject = GPGMEPLUG_DET_SIGN_MAKE_MIME_OBJECT;
if( structuring->makeMimeObject ) {
structuring->makeMultiMime = GPGMEPLUG_DET_SIGN_MAKE_MULTI_MIME;
storeNewCharPtr( &structuring->contentTypeMain,
GPGMEPLUG_DET_SIGN_CTYPE_MAIN );
storeNewCharPtr( &structuring->contentDispMain,
GPGMEPLUG_DET_SIGN_CDISP_MAIN );
storeNewCharPtr( &structuring->contentTEncMain,
GPGMEPLUG_DET_SIGN_CTENC_MAIN );
if( structuring->makeMultiMime ) {
storeNewCharPtr( &structuring->contentTypeVersion,
GPGMEPLUG_DET_SIGN_CTYPE_VERSION );
storeNewCharPtr( &structuring->contentDispVersion,
GPGMEPLUG_DET_SIGN_CDISP_VERSION );
storeNewCharPtr( &structuring->contentTEncVersion,
GPGMEPLUG_DET_SIGN_CTENC_VERSION );
storeNewCharPtr( &structuring->bodyTextVersion,
GPGMEPLUG_DET_SIGN_BTEXT_VERSION );
storeNewCharPtr( &structuring->contentTypeCode,
GPGMEPLUG_DET_SIGN_CTYPE_CODE );
storeNewCharPtr( &structuring->contentDispCode,
GPGMEPLUG_DET_SIGN_CDISP_CODE );
storeNewCharPtr( &structuring->contentTEncCode,
GPGMEPLUG_DET_SIGN_CTENC_CODE );
}
} else {
storeNewCharPtr( &structuring->flatTextPrefix,
GPGMEPLUG_DET_SIGN_FLAT_PREFIX );
storeNewCharPtr( &structuring->flatTextSeparator,
GPGMEPLUG_DET_SIGN_FLAT_SEPARATOR );
storeNewCharPtr( &structuring->flatTextPostfix,
GPGMEPLUG_DET_SIGN_FLAT_POSTFIX );
}
}
}
return bOk;
}
bool storeCertificatesFromMessage(
const char* ciphertext ){ return true; }
/* returns address if address doesn't contain a <xxx> part
* else it returns a new string xxx and frees address
*/
static char* parseAddress( char* address )
{
char* result = address;
char* i;
char* j;
if( !result ) return result;
i = index( address, '<' );
if( i ) {
j = index( i+1, '>' );
if( j == NULL ) j = address+strlen(address);
result = xmalloc( j-i );
strncpy( result, i+1, j-i-1 );
result[j-i-1] = '\0';
free( address );
} else {
i = address;
j = i+strlen(address);
}
{
/* remove surrounding whitespace */
char* k = result+(j-i-1);
char* l = result;
while( isspace( *l ) ) ++l;
while( isspace( *k ) ) --k;
if( l != result || k != result+(j-i-1) ) {
char* result2 = xmalloc( k-l+2 );
strncpy( result2, l, k-l+1 );
result2[k-l+1] = '\0';
free(result);
result = result2;
}
}
return result;
}
static char* nextAddress( const char** address )
{
const char *start = *address;
char* result = NULL;
int quote = 0;
int comment = 0;
int found = 0;
if( *address == NULL ) return NULL;
while( **address ) {
switch( **address ) {
case '\\': /* escaped character */
++(*address);
break;
case '"':
if( comment == 0 ) {
if( quote > 0 ) --quote;
else ++quote;
}
break;
case '(': /* comment start */
if( quote == 0 ) ++comment;
break;
case ')': /* comment end */
if( quote == 0 ) --comment;
break;
case '\0':
case '\1': /* delimiter */
if( quote == 0 && comment == 0 ) {
found = 1;
}
break;
}
++(*address);
if( found ) break;
}
if( found || **address == 0 ) {
size_t len;
len = *address - start;
if( len > 0 ) {
if( **address != 0 ) --len;
result = xmalloc( len*sizeof(char)+1 );
strncpy( result, start, len );
result[len] = '\0';
}
}
return parseAddress(result);
}
bool encryptMessage( const char* cleartext,
const char** ciphertext,
const size_t* cipherLen,
const char* certificate,
struct StructuringInfo* structuring,
int* errId,
char** errTxt )
{
GpgmeCtx ctx;
GpgmeError err;
GpgmeData gCiphertext, gPlaintext;
GpgmeRecipients rset;
char* rCiph = 0;
bool bOk = false;
init_StructuringInfo( structuring );
gpgme_new (&ctx);
gpgme_set_protocol (ctx, GPGMEPLUG_PROTOCOL);
gpgme_set_armor (ctx, __GPGMEPLUG_ENCRYPTED_CODE_IS_BINARY ? 0 : 1);
/* gpgme_set_textmode (ctx, 1); */
gpgme_data_new_from_mem (&gPlaintext, cleartext,
1+strlen( cleartext ), 1 );
err = gpgme_data_new ( &gCiphertext );
gpgme_recipients_new (&rset);
/*
if( GPGMEPLUG_PROTOCOL == GPGME_PROTOCOL_CMS )
{
gpgme_recipients_add_name (rset,
"/CN=test cert 1,OU=Aegypten Project,O=g10 Code GmbH,L=DÃ?sseldorf,C=DE" );
fputs( "\nGPGSMPLUG encryptMessage() using test key of Aegypten Project\n", stderr );
}
else
*/
{
const char* p = certificate;
char* tok;
while( (tok = nextAddress( &p ) ) != 0 ) {
gpgme_recipients_add_name (rset, tok );
fprintf( stderr, "\nGPGMEPLUG encryptMessage() using addressee %s\n", tok );
free(tok);
}
}
/* PENDING(g10) Implement this
Possible values: RSA = 1, SHA1 = 2, TripleDES = 3
gpgme_set_encryption_algorithm( ctx, config.encryptionAlgorithm );
-> Your are mixing public key and symmetric algorithms. The
latter may be configured but the sphix specifications do opnly
allow 3-DES so this is not nothing we need to do. The proper way
to select the symmetric algorithm is anyway by looking at the
capabilities of the certificate because this is the only way to
know what the recipient can accept. [wk 2002-03-23]
PENDING(g10) Implement this
gpgme_set_encryption_check_certificate_path(
config.checkCertificatePath )
PENDING(g10) Implement this
gpgme_set_encryption_check_certificate_path_to_root(
config.checkEncryptionCertificatePathToRoot )
-> Not checking a certificate up to the ROOT CA is dangerous and
stupid. There is no need for those options. [wk 2002-03-23] */
err = gpgme_op_encrypt (ctx, rset, gPlaintext, gCiphertext );
if( err ) {
fprintf( stderr, "\ngpgme_op_encrypt() returned this error code: %i\n", err );
if( errId )
*errId = err;
if( errTxt ) {
const char* _errTxt = gpgme_strerror( err );
*errTxt = malloc( strlen( _errTxt ) + 100 ); // leave room for reason string
if( *errTxt ) {
char* opInfo;
strcpy(*errTxt, _errTxt );
opInfo = gpgme_get_op_info(ctx, 0);
if( NULL != opInfo && *opInfo ){
const int opLen = strlen( opInfo );
const int reasonLen = 8;
char reason[ 1+reasonLen ];
char* pos1;
strcpy( reason, "<reason>" );
pos1 = strstr( opInfo, reason );
if( NULL != pos1 &&
opLen > reasonLen + (pos1 - opInfo) ){
char* pos2;
pos1 += reasonLen;
pos2 = strchr( pos1, '<' );
if( NULL != pos2 &&
pos1 < pos2 ){
long int reasonId;
strcat( *errTxt, " - " );
*pos2 = '\0';
fprintf( stderr, " and this reason code: %s\n\n", pos1 );
reasonId = strtol( pos1, NULL, 10 );
switch( reasonId ) {
case 0: strcat( *errTxt, "No specific reason given" );
break;
case 1: strcat( *errTxt, "Not Found" );
break;
case 2: strcat( *errTxt, "Ambigious specification" );
break;
case 3: strcat( *errTxt, "Key can't be used for operation" );
break;
case 4: strcat( *errTxt, "Key has been revoked" );
break;
case 5: strcat( *errTxt, "Key has expired" );
break;
case 6: strcat( *errTxt, "No CRL known for certificate" );
break;
case 7: strcat( *errTxt, "No current CRL available" );
break;
case 8: strcat( *errTxt, "Contraints not matched" );
break;
default: {
strcat( *errTxt, "Extended error Id: #" );
strcat( *errTxt, pos1 );
}
}
*pos2 = '<';
}
}
free( opInfo );
}
}
}
}
gpgme_recipients_release (rset);
gpgme_data_release (gPlaintext);
if( err == GPGME_No_Error ) {
if( __GPGMEPLUG_ENCRYPTED_CODE_IS_BINARY ) {
*ciphertext = gpgme_data_release_and_get_mem( gCiphertext, (size_t*)cipherLen );
bOk = true;
}
else {
rCiph = gpgme_data_release_and_get_mem( gCiphertext, (size_t*)cipherLen );
*ciphertext = malloc( *cipherLen + 1 );
if( *ciphertext ) {
if( *cipherLen ) {
bOk = true;
strncpy((char*)*ciphertext, rCiph, *cipherLen );
}
((char*)(*ciphertext))[*cipherLen] = 0;
}
free( rCiph );
}
}
else {
gpgme_data_release ( gCiphertext );
*ciphertext = 0;
/* error handling is missing: if only one untrusted key was found
(or none at all), gpg won't sign the message. (hier fehlt eine
Fehlerbehandlung: fuer einen Recipient nur ein untrusted key
(oder gar keiner) gefunden wurde, verweigert gpg das signieren.)
*/
}
gpgme_release (ctx);
fflush( stderr );
if( bOk && structuring ) {
structuring->includeCleartext = GPGMEPLUG_ENC_INCLUDE_CLEARTEXT;
structuring->makeMimeObject = GPGMEPLUG_ENC_MAKE_MIME_OBJECT;
if( structuring->makeMimeObject ) {
structuring->makeMultiMime = GPGMEPLUG_ENC_MAKE_MULTI_MIME;
storeNewCharPtr( &structuring->contentTypeMain,
GPGMEPLUG_ENC_CTYPE_MAIN );
storeNewCharPtr( &structuring->contentDispMain,
GPGMEPLUG_ENC_CDISP_MAIN );
storeNewCharPtr( &structuring->contentTEncMain,
GPGMEPLUG_ENC_CTENC_MAIN );
if( structuring->makeMultiMime ) {
storeNewCharPtr( &structuring->contentTypeVersion,
GPGMEPLUG_ENC_CTYPE_VERSION );
storeNewCharPtr( &structuring->contentDispVersion,
GPGMEPLUG_ENC_CDISP_VERSION );
storeNewCharPtr( &structuring->contentTEncVersion,
GPGMEPLUG_ENC_CTENC_VERSION );
storeNewCharPtr( &structuring->bodyTextVersion,
GPGMEPLUG_ENC_BTEXT_VERSION );
storeNewCharPtr( &structuring->contentTypeCode,
GPGMEPLUG_ENC_CTYPE_CODE );
storeNewCharPtr( &structuring->contentDispCode,
GPGMEPLUG_ENC_CDISP_CODE );
storeNewCharPtr( &structuring->contentTEncCode,
GPGMEPLUG_ENC_CTENC_CODE );
}
} else {
storeNewCharPtr( &structuring->flatTextPrefix,
GPGMEPLUG_ENC_FLAT_PREFIX );
storeNewCharPtr( &structuring->flatTextSeparator,
GPGMEPLUG_ENC_FLAT_SEPARATOR );
storeNewCharPtr( &structuring->flatTextPostfix,
GPGMEPLUG_ENC_FLAT_POSTFIX );
}
}
return bOk;
}
bool encryptAndSignMessage( const char* cleartext,
const char** ciphertext,
const char* certificate,
struct StructuringInfo* structuring )
{
bool bOk;
init_StructuringInfo( structuring );
bOk = false;
/* implementation of this function is still missing */
if( bOk && structuring ) {
structuring->includeCleartext = GPGMEPLUG_ENCSIGN_INCLUDE_CLEARTEXT;
structuring->makeMimeObject = GPGMEPLUG_ENCSIGN_MAKE_MIME_OBJECT;
if( structuring->makeMimeObject ) {
structuring->makeMultiMime = GPGMEPLUG_ENCSIGN_MAKE_MULTI_MIME;
storeNewCharPtr( &structuring->contentTypeMain,
GPGMEPLUG_ENCSIGN_CTYPE_MAIN );
storeNewCharPtr( &structuring->contentDispMain,
GPGMEPLUG_ENCSIGN_CDISP_MAIN );
storeNewCharPtr( &structuring->contentTEncMain,
GPGMEPLUG_ENCSIGN_CTENC_MAIN );
if( structuring->makeMultiMime ) {
storeNewCharPtr( &structuring->contentTypeVersion,
GPGMEPLUG_ENCSIGN_CTYPE_VERSION );
storeNewCharPtr( &structuring->contentDispVersion,
GPGMEPLUG_ENCSIGN_CDISP_VERSION );
storeNewCharPtr( &structuring->contentTEncVersion,
GPGMEPLUG_ENCSIGN_CTENC_VERSION );
storeNewCharPtr( &structuring->bodyTextVersion,
GPGMEPLUG_ENCSIGN_BTEXT_VERSION );
storeNewCharPtr( &structuring->contentTypeCode,
GPGMEPLUG_ENCSIGN_CTYPE_CODE );
storeNewCharPtr( &structuring->contentDispCode,
GPGMEPLUG_ENCSIGN_CDISP_CODE );
storeNewCharPtr( &structuring->contentTEncCode,
GPGMEPLUG_ENCSIGN_CTENC_CODE );
}
} else {
storeNewCharPtr( &structuring->flatTextPrefix,
GPGMEPLUG_ENCSIGN_FLAT_PREFIX );
storeNewCharPtr( &structuring->flatTextSeparator,
GPGMEPLUG_ENCSIGN_FLAT_SEPARATOR );
storeNewCharPtr( &structuring->flatTextPostfix,
GPGMEPLUG_ENCSIGN_FLAT_POSTFIX );
}
}
return bOk;
}
bool decryptMessage( const char* ciphertext,
bool cipherIsBinary,
int cipherLen,
const char** cleartext,
const char* certificate,
int* errId,
char** errTxt )
{
GpgmeCtx ctx;
GpgmeError err;
GpgmeData gCiphertext, gPlaintext;
size_t rCLen = 0;
char* rCiph = 0;
bool bOk = false;
if( !ciphertext )
return false;
err = gpgme_new (&ctx);
gpgme_set_protocol (ctx, GPGMEPLUG_PROTOCOL);
gpgme_set_armor (ctx, cipherIsBinary ? 0 : 1);
/* gpgme_set_textmode (ctx, cipherIsBinary ? 0 : 1); */
/*
gpgme_data_new_from_mem( &gCiphertext, ciphertext,
1+strlen( ciphertext ), 1 ); */
gpgme_data_new_from_mem( &gCiphertext,
ciphertext,
cipherIsBinary
? cipherLen
: strlen( ciphertext ),
1 );
gpgme_data_new( &gPlaintext );
err = err = gpgme_op_decrypt( ctx, gCiphertext, gPlaintext );
if( err ) {
fprintf( stderr, "\ngpgme_op_decrypt() returned this error code: %i\n\n", err );
if( errId )
*errId = err;
if( errTxt ) {
const char* _errTxt = gpgme_strerror( err );
*errTxt = malloc( strlen( _errTxt ) + 1 );
if( *errTxt )
strcpy(*errTxt, _errTxt );
}
}
gpgme_data_release( gCiphertext );
rCiph = gpgme_data_release_and_get_mem( gPlaintext, &rCLen );
*cleartext = malloc( rCLen + 1 );
if( *cleartext ) {
if( rCLen ) {
bOk = true;
strncpy((char*)*cleartext, rCiph, rCLen );
}
((char*)(*cleartext))[rCLen] = 0;
}
free( rCiph );
gpgme_release( ctx );
return bOk;
}
const char* requestCertificateDialog(){ return 0; }
/* The buffer generatedKey contains the LEN bytes you want.
Caller is responsible for freeing. */
bool requestDecentralCertificate( const char* certparms,
char** generatedKey, int* length )
{
GpgmeError err;
GpgmeCtx ctx;
GpgmeData pub;
int len;
err = gpgme_data_new (&pub);
fprintf( stderr, "1: gpgme returned %d\n", err );
if( err != GPGME_No_Error )
return false;
err = gpgme_new (&ctx);
fprintf( stderr, "2: gpgme returned %d\n", err );
if( err != GPGME_No_Error ) {
gpgme_data_release( pub );
return false;
}
gpgme_set_protocol (ctx, GPGME_PROTOCOL_CMS);
/* Don't ASCII-armor, the MUA will use base64 encoding */
/* gpgme_set_armor (ctx, 1); */
err = gpgme_op_genkey (ctx, certparms, pub, NULL );
fprintf( stderr, "3: gpgme returned %d\n", err );
if( err != GPGME_No_Error ) {
gpgme_data_release( pub );
gpgme_release( ctx );
return false;
}
gpgme_release (ctx);
*generatedKey = gpgme_data_release_and_get_mem (pub, &len);
*length = len;
return true;
}
bool requestCentralCertificateAndPSE( const char* name,
const char* email, const char* organization, const char* department,
const char* ca_address ){ return true; }
bool createPSE(){ return true; }
bool registerCertificate( const char* certificate ){ return true; }
bool requestCertificateProlongation( const char* certificate,
const char* ca_address ){ return true; }
const char* certificateChain(){ return 0; }
bool deleteCertificate( const char* certificate ){ return true; }
bool archiveCertificate( const char* certificate ){ return true; }
const char* displayCRL(){ return 0; }
void updateCRL(){}
char *
trim_trailing_spaces( char *string )
{
char *p, *mark;
for( mark = NULL, p = string; *p; p++ ) {
if( isspace( *p ) ) {
if( !mark )
mark = p;
}
else
mark = NULL;
}
if( mark )
*mark = '\0' ;
return string ;
}
/* Parse a DN and return an array-ized one. This is not a validating
parser and it does not support any old-stylish syntax; gpgme is
expected to return only rfc2253 compatible strings. */
static const unsigned char *
parse_dn_part (struct DnPair *array, const unsigned char *string)
{
const unsigned char *s, *s1;
size_t n;
unsigned char *p;
/* parse attributeType */
for (s = string+1; *s && *s != '='; s++)
;
if (!*s)
return NULL; /* error */
n = s - string;
if (!n)
return NULL; /* empty key */
array->key = p = xmalloc (n+1);
memcpy (p, string, n);
p[n] = 0;
trim_trailing_spaces (p);
if ( !strcmp (p, "1.2.840.113549.1.9.1") )
strcpy (p, "EMail");
string = s + 1;
if (*string == '#')
{ /* hexstring */
string++;
for (s=string; hexdigitp (s); s++)
s++;
n = s - string;
if (!n || (n & 1))
return NULL; /* empty or odd number of digits */
n /= 2;
array->value = p = xmalloc (n+1);
for (s1=string; n; s1 += 2, n--)
*p++ = xtoi_2 (s1);
*p = 0;
}
else
{ /* regular v3 quoted string */
for (n=0, s=string; *s; s++)
{
if (*s == '\\')
{ /* pair */
s++;
if (*s == ',' || *s == '=' || *s == '+'
|| *s == '<' || *s == '>' || *s == '#' || *s == ';'
|| *s == '\\' || *s == '\"' || *s == ' ')
n++;
else if (hexdigitp (s) && hexdigitp (s+1))
{
s++;
n++;
}
else
return NULL; /* invalid escape sequence */
}
else if (*s == '\"')
return NULL; /* invalid encoding */
else if (*s == ',' || *s == '=' || *s == '+'
|| *s == '<' || *s == '>' || *s == '#' || *s == ';' )
break;
else
n++;
}
array->value = p = xmalloc (n+1);
for (s=string; n; s++, n--)
{
if (*s == '\\')
{
s++;
if (hexdigitp (s))
{
*p++ = xtoi_2 (s);
s++;
}
else
*p++ = *s;
}
else
*p++ = *s;
}
*p = 0;
}
return s;
}
/* Parse a DN and return an array-ized one. This is not a validating
parser and it does not support any old-stylish syntax; gpgme is
expected to return only rfc2253 compatible strings. */
static struct DnPair *
parse_dn (const unsigned char *string)
{
struct DnPair *array;
size_t arrayidx, arraysize;
int i;
if( !string )
return NULL;
arraysize = 7; /* C,ST,L,O,OU,CN,email */
arrayidx = 0;
array = xmalloc ((arraysize+1) * sizeof *array);
while (*string)
{
while (*string == ' ')
string++;
if (!*string)
break; /* ready */
if (arrayidx >= arraysize)
{ /* mutt lacks a real safe_realoc - so we need to copy */
struct DnPair *a2;
arraysize += 5;
a2 = xmalloc ((arraysize+1) * sizeof *array);
for (i=0; i < arrayidx; i++)
{
a2[i].key = array[i].key;
a2[i].value = array[i].value;
}
free (array);
array = a2;
}
array[arrayidx].key = NULL;
array[arrayidx].value = NULL;
string = parse_dn_part (array+arrayidx, string);
arrayidx++;
if (!string)
goto failure;
while (*string == ' ')
string++;
if (*string && *string != ',' && *string != ';' && *string != '+')
goto failure; /* invalid delimiter */
if (*string)
string++;
}
array[arrayidx].key = NULL;
array[arrayidx].value = NULL;
return array;
failure:
for (i=0; i < arrayidx; i++)
{
free (array[i].key);
free (array[i].value);
}
free (array);
return NULL;
}
static int
add_dn_part( char* result, struct DnPair* dn, const char* part )
{
int any = 0;
if( dn ) {
for(; dn->key; ++dn ) {
if( !strcmp( dn->key, part ) ) {
if( any ) strcat( result, "+" );
/* email hack */
if( !strcmp( part, "1.2.840.113549.1.9.1" ) ) strcat( result, "EMail" );
else strcat( result, part );
strcat( result, "=" );
strcat( result, dn->value );
any = 1;
}
}
}
return any;
}
static char*
reorder_dn( struct DnPair *dn )
{
/* note: The must parts are: CN, L, OU, O, C */
const char* stdpart[] = {
"CN", "S", "SN", "GN", "T", "UID",
"MAIL", "EMAIL", "MOBILE", "TEL", "FAX", "STREET",
"L", "PC", "SP", "ST",
"OU",
"O",
"C",
NULL
};
int any=0, any2=0, len=0, i;
char* result;
if( dn ) {
for( i = 0; dn[i].key; ++i ) {
len += strlen( dn[i].key );
len += strlen( dn[i].value );
len += 4; /* ',' and '=', and possibly "(" and ")" */
}
}
result = xmalloc( (len+1)*sizeof(char) );
*result = 0;
/* add standard parts */
for( i = 0; stdpart[i]; ++i ) {
if( any ) {
strcat( result, "," );
}
any = add_dn_part( result, dn, stdpart[i] );
}
/* add remaining parts in no particular order */
if( dn ) {
for(; dn->key; ++dn ) {
for( i = 0; stdpart[i]; ++i ) {
if( !strcmp( dn->key, stdpart[i] ) ) {
break;
}
}
if( !stdpart[i] ) {
if( any ) strcat( result, "," );
if( !any2 ) strcat( result, "(");
any = add_dn_part( result, dn, dn->key );
any2 = 1;
}
}
}
if( any2 ) strcat( result, ")");
return result;
}
struct CertIterator {
GpgmeCtx ctx;
struct CertificateInfo info;
};
struct CertIterator*
startListCertificates( const char* pattern, int remote )
{
GpgmeError err;
struct CertIterator* it;
const char* patterns[] = { pattern, NULL };
fprintf( stderr, "startListCertificates( \"%s\", %d )\n", pattern, remote );
it = xmalloc( sizeof( struct CertIterator ) );
err = gpgme_new (&(it->ctx));
/*fprintf( stderr, "2: gpgme returned %d\n", err );*/
if( err != GPGME_No_Error ) {
free( it );
return NULL;
}
gpgme_set_protocol (it->ctx, GPGME_PROTOCOL_CMS);
if( remote ) gpgme_set_keylist_mode ( it->ctx, GPGME_KEYLIST_MODE_EXTERN );
else gpgme_set_keylist_mode ( it->ctx, GPGME_KEYLIST_MODE_LOCAL );
err = gpgme_op_keylist_ext_start ( it->ctx, patterns, 0, 0);
if( err != GPGME_No_Error ) {
fprintf( stderr, "gpgme_op_keylist_ext_start returned %d", err );
endListCertificates( it );
return NULL;
}
memset( &(it->info), 0, sizeof( struct CertificateInfo ) );
return it;
}
/* free() each string in a char*[] and the array itself */
static void
freeStringArray( char** c )
{
char** _c = c;
while( c && *c ) {
/*fprintf( stderr, "freeing \"%s\"\n", *c );*/
free( *c );
++c;
}
free( _c );
}
/* free all malloc'ed data in a struct CertificateInfo */
static void
freeInfo( struct CertificateInfo* info )
{
struct DnPair* a = info->dnarray;
assert( info );
freeStringArray( info->userid );
free( info->serial);
free( info->fingerprint );
free( info->issuer );
free( info->chainid );
free( info->caps );
while( a && a->key && a->value ) {
free (a->key);
free (a->value);
++a;
}
free (info->dnarray);
memset( info, 0, sizeof( *info ) );
}
/* Format the fingerprint nicely. The caller should
free the returned value using free() */
static char* make_fingerprint( const char* fpr )
{
int len = strlen(fpr);
int i = 0;
char* result = xmalloc( (len + len/2 + 1)*sizeof(char) );
for(; *fpr; ++fpr, ++i ) {
if( i%3 == 2) {
result[i] = ':'; ++i;
}
result[i] = *fpr;
}
result[i] = 0;
return result;
}
int
nextCertificate( struct CertIterator* it, struct CertificateInfo** result )
{
GpgmeError err;
GpgmeKey key;
int retval = GPGME_No_Error;
assert( it );
fprintf( stderr, "nextCertificates( %p, %p )\n", it, result );
err = gpgme_op_keylist_next ( it->ctx, &key);
if( err != GPGME_EOF ) {
int idx;
const char* s;
unsigned long u;
char* names[MAX_GPGME_IDX+1];
struct DnPair *issuer_dn, *tmp_dn;
retval = err;
memset( names, 0, sizeof( names ) );
freeInfo( &(it->info) );
for( idx = 0; (s = gpgme_key_get_string_attr (key, GPGME_ATTR_USERID, 0, idx)) && idx < MAX_GPGME_IDX;
++idx ) {
names[idx] = xstrdup( s );
}
it->info.userid = xmalloc( sizeof( char* ) * (idx+1) );
memset( it->info.userid, 0, sizeof( char* ) * (idx+1) );
it->info.dnarray = 0;
for( idx = 0; names[idx] != 0; ++idx ) {
struct DnPair* a = parse_dn( names[idx] );
if( idx == 0 ) {
it->info.userid[idx] = reorder_dn( a );
it->info.dnarray = a;
free (names[idx]);
names[idx] = NULL;
} else {
it->info.userid[idx] = names[idx];
}
}
it->info.userid[idx] = 0;
s = gpgme_key_get_string_attr (key, GPGME_ATTR_SERIAL, 0, 0);
it->info.serial = s? xstrdup(s) : NULL;
s = gpgme_key_get_string_attr (key, GPGME_ATTR_FPR, 0, 0);
it->info.fingerprint = make_fingerprint( s );
s = gpgme_key_get_string_attr (key, GPGME_ATTR_ISSUER, 0, 0);
if( s ) {
issuer_dn = tmp_dn = parse_dn( s );
/*it->info.issuer = xstrdup(s);*/
it->info.issuer = reorder_dn( issuer_dn );
while( tmp_dn && tmp_dn->key ) {
free( tmp_dn->key );
free( tmp_dn->value );
++tmp_dn;
}
free( issuer_dn );
issuer_dn = tmp_dn = NULL;
} else {
it->info.issuer = NULL;
}
s = gpgme_key_get_string_attr (key, GPGME_ATTR_CHAINID, 0, 0);
it->info.chainid = s? xstrdup(s): NULL;
s = gpgme_key_get_string_attr (key, GPGME_ATTR_KEY_CAPS, 0, 0);
it->info.caps = s? xstrdup(s) : NULL;
u = gpgme_key_get_ulong_attr (key, GPGME_ATTR_CREATED, 0, 0);
it->info.created = u;
u = gpgme_key_get_ulong_attr (key, GPGME_ATTR_EXPIRE, 0, 0);
it->info.expire = u;
u = gpgme_key_get_ulong_attr (key, GPGME_ATTR_IS_SECRET, 0, 0);
it->info.secret = u;
u = gpgme_key_get_ulong_attr (key, GPGME_ATTR_UID_INVALID, 0, 0);
it->info.invalid = u;
u = gpgme_key_get_ulong_attr (key, GPGME_ATTR_KEY_EXPIRED, 0, 0);
it->info.expired = u;
u = gpgme_key_get_ulong_attr (key, GPGME_ATTR_KEY_DISABLED, 0, 0);
it->info.disabled = u;
gpgme_key_release (key);
/*return &(it->info);*/
*result = &(it->info);
} else {
*result = NULL;
}
return retval;
}
int
endListCertificates( struct CertIterator* it )
{
char *s = gpgme_get_op_info (it->ctx, 0);
int truncated = s && strstr (s, "<truncated/>");
fprintf( stderr, "endListCertificates( %p )\n", it );
if( s ) free( s );
assert(it);
freeInfo( &(it->info) );
gpgme_op_keylist_end(it->ctx);
gpgme_release (it->ctx);
free( it );
return truncated;
}
int
importCertificateWithFPR( const char* fingerprint, char** additional_info )
{
GpgmeError err;
GpgmeCtx ctx;
GpgmeData keydata;
GpgmeRecipients recips;
char* buf;
const char* tmp1;
char* tmp2;
int count = 0;
err = gpgme_new( &ctx );
/*fprintf( stderr, "2: gpgme returned %d\n", err );*/
if( err != GPGME_No_Error ) {
return err;
}
gpgme_set_protocol( ctx, GPGME_PROTOCOL_CMS );
gpgme_set_keylist_mode( ctx, GPGME_KEYLIST_MODE_LOCAL );
err = gpgme_data_new( &keydata );
if( err ) {
fprintf( stderr, "gpgme_data_new returned %d\n", err );
gpgme_release( ctx );
return err;
}
err = gpgme_recipients_new( &recips );
if( err ) {
fprintf( stderr, "gpgme_recipients_new returned %d\n", err );
gpgme_data_release( keydata );
gpgme_release( ctx );
return err;
}
buf = malloc( sizeof(char)*( strlen( fingerprint ) + 1 ) );
if( !buf ) {
gpgme_recipients_release( recips );
gpgme_data_release( keydata );
gpgme_release( ctx );
return GPGME_Out_Of_Core;
}
tmp1 = fingerprint;
tmp2 = buf;
while( *tmp1 ) {
if( *tmp1 != ':' ) *tmp2++ = *tmp1;
tmp1++;
}
*tmp2 = 0;
fprintf( stderr, "calling gpgme_recipients_add_name( %s )\n", buf );
err = gpgme_recipients_add_name( recips, buf );
if( err ) {
fprintf( stderr, "gpgme_recipients_add_name returned %d\n", err );
free (buf);
gpgme_recipients_release( recips );
gpgme_data_release( keydata );
gpgme_release( ctx );
return err;
}
err = gpgme_op_export( ctx, recips, keydata );
if( err ) {
fprintf( stderr, "gpgme_op_export returned %d\n", err );
free (buf);
*additional_info = gpgme_get_op_info( ctx, 0 );
gpgme_recipients_release( recips );
gpgme_data_release( keydata );
gpgme_release( ctx );
return err;
}
free (buf);
buf = NULL;
err = gpgme_op_import_ext( ctx, keydata, &count );
*additional_info = gpgme_get_op_info( ctx, 0 );
if( err ) {
fprintf( stderr, "gpgme_op_import_ext returned %d\n", err );
gpgme_recipients_release( recips );
gpgme_data_release( keydata );
gpgme_release( ctx );
return err;
}
if( count < 1 ) {
/* we didn't import anything?!? */
fprintf( stderr, "gpgme_op_import_ext did not import any certificates\n" );
gpgme_recipients_release( recips );
gpgme_data_release( keydata );
gpgme_release( ctx );
return -1; /* FIXME */
}
gpgme_recipients_release( recips );
gpgme_data_release( keydata );
gpgme_release( ctx );
return 0;
}
int
importCertificateFromMem( const char* data, size_t length , char** additional_info )
{
GpgmeError err;
GpgmeCtx ctx;
GpgmeData keydata;
int count = 0;
err = gpgme_new( &ctx );
/*fprintf( stderr, "2: gpgme returned %d\n", err );*/
if( err != GPGME_No_Error ) {
return err;
}
gpgme_set_protocol( ctx, GPGME_PROTOCOL_CMS );
gpgme_set_keylist_mode( ctx, GPGME_KEYLIST_MODE_LOCAL );
err = gpgme_data_new_from_mem( &keydata, data, length, 0 );
if( err ) {
fprintf( stderr, "gpgme_data_new returned %d\n", err );
gpgme_release( ctx );
return err;
}
err = gpgme_op_import_ext( ctx, keydata, &count );
*additional_info = gpgme_get_op_info( ctx, 0 );
if( err) {
fprintf( stderr, "gpgme_op_import_ext returned %d\n", err );
gpgme_data_release( keydata );
gpgme_release( ctx );
return err;
}
if( count < 1 ) {
/* we didn't import anything?!? */
fprintf( stderr, "gpgme_op_import_ext did not import any certificate\n" );
gpgme_data_release( keydata );
gpgme_release( ctx );
return -1; /* FIXME */
}
gpgme_data_release( keydata );
gpgme_release( ctx );
return 0;
}
/* == == == == == == == == == == == == == == == == == == == == == == == == ==
== ==
== Continuation of CryptPlug code ==
== ==
== == == == == == == == == == == == == == == == == == == == == == == == == */
/*
Find all certificate for a given addressee and return them in a
'\1' separated list.
NOTE: The certificate parameter must point to a not-yet allocated
char*. The function will allocate the memory needed and
return the size in newSize.
If secretOnly is true, only secret keys are returned.
*/
bool findCertificates( const char* addressee,
char** certificates,
int* newSize,
bool secretOnly )
{
#define MAXCERTS 1024
/* use const char declarations since all of them are needed twice */
const char* delimiter = "\1";
const char* openBracket = " (";
const char* closeBracket = ")";
GpgmeCtx ctx;
GpgmeError err;
GpgmeKey rKey;
const char *s;
const char *s2;
char* dn;
struct DnPair* a;
int nFound = 0;
int iFound = 0;
int siz = 0;
char* DNs[MAXCERTS];
char* FPRs[MAXCERTS];
if( ! certificates ){
fprintf( stderr, "gpgme: findCertificates called with invalid *certificates pointer\n" );
return false;
}
if( ! newSize ){
fprintf( stderr, "gpgme: findCertificates called with invalid newSize pointer\n" );
return false;
}
*certificates = 0;
*newSize = 0;
/* calculate length of buffer needed for certs plus fingerprints */
gpgme_new (&ctx);
gpgme_set_protocol (ctx, GPGMEPLUG_PROTOCOL);
err = gpgme_op_keylist_start(ctx, addressee, secretOnly ? 1 : 0);
while( GPGME_No_Error == err ) {
err = gpgme_op_keylist_next(ctx, &rKey);
if( GPGME_No_Error == err ) {
s = gpgme_key_get_string_attr (rKey, GPGME_ATTR_USERID, NULL, 0);
if( s ) {
dn = xstrdup( s );
s2 = gpgme_key_get_string_attr (rKey, GPGME_ATTR_FPR, NULL, 0);
if( s2 ) {
if( nFound )
siz += strlen( delimiter );
a = parse_dn( dn );
free( dn );
dn = reorder_dn( a );
siz += strlen( dn );
siz += strlen( openBracket );
siz += strlen( s2 );
siz += strlen( closeBracket );
DNs[ nFound ] = dn;
dn = NULL; /* prevent it from being free'ed below. */
FPRs[nFound ] = xstrdup( s2 );
++nFound;
if( nFound >= MAXCERTS ) {
fprintf( stderr,
"gpgme: findCertificates found too many certificates (%d)\n",
MAXCERTS );
break;
}
}
free (dn);
}
}
}
gpgme_op_keylist_end( ctx );
gpgme_release (ctx);
if( 0 < siz ) {
/* add one for trailing ZERO char */
++siz;
*newSize = siz;
/* allocate the buffer */
*certificates = xmalloc( sizeof(char) * siz );
memset( *certificates, 0, sizeof(char) * siz );
/* fill the buffer */
for (iFound=0; iFound < nFound; iFound++) {
if( !iFound )
strcpy(*certificates, DNs[iFound] );
else {
strcat(*certificates, delimiter );
strcat(*certificates, DNs[iFound] );
}
strcat( *certificates, openBracket );
strcat( *certificates, FPRs[iFound] );
strcat( *certificates, closeBracket );
free( DNs[ iFound ] );
free( FPRs[iFound ] );
}
}
return ( 0 < nFound );
}
static const char*
sig_status_to_string( GpgmeSigStat status )
{
const char *result;
switch (status) {
case GPGME_SIG_STAT_NONE:
result = "Oops: Signature not verified";
break;
case GPGME_SIG_STAT_NOSIG:
result = "No signature found";
break;
case GPGME_SIG_STAT_GOOD:
result = "Good signature";
break;
case GPGME_SIG_STAT_BAD:
result = "BAD signature";
break;
case GPGME_SIG_STAT_NOKEY:
result = "No public key to verify the signature";
break;
case GPGME_SIG_STAT_ERROR:
result = "Error verifying the signature";
break;
case GPGME_SIG_STAT_DIFF:
result = "Different results for signatures";
break;
default:
result = "Error: Unknown status";
break;
}
return result;
}
void obtain_signature_information( GpgmeCtx * ctx,
GpgmeSigStat status,
struct SignatureMetaData* sigmeta )
{
GpgmeError err;
GpgmeKey key;
const char* statusStr;
const char* fpr;
unsigned long sumGPGME;
SigStatusFlags sumPlug;
time_t created;
struct DnPair* a;
int sig_idx=0;
int UID_idx=0;
/* Provide information in the sigmeta struct */
/* the status string */
statusStr = sig_status_to_string( status );
sigmeta->status = malloc( strlen( statusStr ) + 1 );
if( sigmeta->status ) {
strcpy( sigmeta->status, statusStr );
sigmeta->status[strlen( statusStr )] = '\0';
} else
; /* nothing to do, is already 0 */
/* Extended information for any number of signatures. */
fpr = gpgme_get_sig_status( *ctx, sig_idx, &status, &created );
sigmeta->extended_info = 0;
while( fpr != NULL ) {
struct tm* ctime_val;
const char* sig_status;
void* alloc_return = realloc( sigmeta->extended_info,
sizeof( struct SignatureMetaDataExtendedInfo )
* ( sig_idx + 1 ) );
if( alloc_return ) {
sigmeta->extended_info = alloc_return;
/* clear the data area */
memset( &sigmeta->extended_info[sig_idx],
0,
sizeof (struct SignatureMetaDataExtendedInfo) );
/* the creation time */
sigmeta->extended_info[sig_idx].creation_time = malloc( sizeof( struct tm ) );
if( sigmeta->extended_info[sig_idx].creation_time ) {
ctime_val = localtime( &created );
memcpy( sigmeta->extended_info[sig_idx].creation_time,
ctime_val, sizeof( struct tm ) );
}
/* the extended signature verification status */
sumGPGME = gpgme_get_sig_ulong_attr( *ctx,
sig_idx,
GPGME_ATTR_SIG_SUMMARY,
0 );
fprintf( stderr, "gpgmeplug checkMessageSignature status flags: %lX\n", sumGPGME );
/* translate GPGME status flags to common CryptPlug status flags */
sumPlug = 0;
if( sumGPGME & GPGME_SIGSUM_VALID ) sumPlug |= SigStat_VALID ;
if( sumGPGME & GPGME_SIGSUM_GREEN ) sumPlug |= SigStat_GREEN ;
if( sumGPGME & GPGME_SIGSUM_RED ) sumPlug |= SigStat_RED ;
if( sumGPGME & GPGME_SIGSUM_KEY_REVOKED ) sumPlug |= SigStat_KEY_REVOKED;
if( sumGPGME & GPGME_SIGSUM_KEY_EXPIRED ) sumPlug |= SigStat_KEY_EXPIRED;
if( sumGPGME & GPGME_SIGSUM_SIG_EXPIRED ) sumPlug |= SigStat_SIG_EXPIRED;
if( sumGPGME & GPGME_SIGSUM_KEY_MISSING ) sumPlug |= SigStat_KEY_MISSING;
if( sumGPGME & GPGME_SIGSUM_CRL_MISSING ) sumPlug |= SigStat_CRL_MISSING;
if( sumGPGME & GPGME_SIGSUM_CRL_TOO_OLD ) sumPlug |= SigStat_CRL_TOO_OLD;
if( sumGPGME & GPGME_SIGSUM_BAD_POLICY ) sumPlug |= SigStat_BAD_POLICY ;
if( sumGPGME & GPGME_SIGSUM_SYS_ERROR ) sumPlug |= SigStat_SYS_ERROR ;
if( !sumPlug )
sumPlug = SigStat_NUMERICAL_CODE | sumGPGME;
sigmeta->extended_info[sig_idx].sigStatusFlags = sumPlug;
sigmeta->extended_info[sig_idx].validity = GPGME_VALIDITY_UNKNOWN;
err = gpgme_get_sig_key (*ctx, sig_idx, &key);
if ( err == GPGME_No_Error) {
const char* attr_string;
unsigned long attr_ulong;
/* extract key identidy */
attr_string = gpgme_key_get_string_attr(key, GPGME_ATTR_KEYID, 0, 0);
if (attr_string != 0)
storeNewCharPtr( &sigmeta->extended_info[sig_idx].keyid, attr_string );
/* extract finger print */
attr_string = gpgme_key_get_string_attr(key, GPGME_ATTR_FPR, 0, 0);
if (attr_string != 0)
storeNewCharPtr( &sigmeta->extended_info[sig_idx].fingerprint,
attr_string );
/* algorithms useable with this key */
attr_string = gpgme_key_get_string_attr(key, GPGME_ATTR_ALGO, 0, 0);
if (attr_string != 0)
storeNewCharPtr( &sigmeta->extended_info[sig_idx].algo,
attr_string );
attr_ulong = gpgme_key_get_ulong_attr(key, GPGME_ATTR_ALGO, 0, 0);
sigmeta->extended_info[sig_idx].algo_num = attr_ulong;
/* extract key validity */
attr_ulong = gpgme_key_get_ulong_attr(key, GPGME_ATTR_VALIDITY, 0, 0);
sigmeta->extended_info[sig_idx].validity = attr_ulong;
/* extract user id, according to the documentation it's representable
* as a number, but it seems that it also has a string representation
*/
attr_string = gpgme_key_get_string_attr(key, GPGME_ATTR_USERID, 0, 0);
if (attr_string != 0) {
a = parse_dn( attr_string );
sigmeta->extended_info[sig_idx].userid = reorder_dn( a );
}
attr_ulong = gpgme_key_get_ulong_attr(key, GPGME_ATTR_USERID, 0, 0);
sigmeta->extended_info[sig_idx].userid_num = attr_ulong;
/* extract the length */
sigmeta->extended_info[sig_idx].keylen = attr_ulong;
/* extract the creation time of the key */
attr_ulong = gpgme_key_get_ulong_attr(key, GPGME_ATTR_CREATED, 0, 0);
sigmeta->extended_info[sig_idx].key_created = attr_ulong;
/* extract the expiration time of the key */
attr_ulong = gpgme_key_get_ulong_attr(key, GPGME_ATTR_EXPIRE, 0, 0);
sigmeta->extended_info[sig_idx].key_expires = attr_ulong;
/* extract user name */
attr_string = gpgme_key_get_string_attr(key, GPGME_ATTR_NAME, 0, 0);
if (attr_string != 0) {
a = parse_dn( attr_string );
sigmeta->extended_info[sig_idx].name = reorder_dn( a );
}
/* extract email(s) */
sigmeta->extended_info[sig_idx].emailCount = 0;
sigmeta->extended_info[sig_idx].emailList = 0;
for( UID_idx=0;
(attr_string = gpgme_key_get_string_attr(key,
GPGME_ATTR_EMAIL, 0, UID_idx));
++UID_idx ){
if (*attr_string) {
fprintf( stderr, "gpgmeplug checkMessageSignature found email: %s\n", attr_string );
if( !sigmeta->extended_info[sig_idx].emailCount )
alloc_return =
malloc( sizeof( char*) );
else
alloc_return =
realloc( sigmeta->extended_info[sig_idx].emailList,
sizeof( char*)
* (sigmeta->extended_info[sig_idx].emailCount + 1) );
if( alloc_return ) {
sigmeta->extended_info[sig_idx].emailList = alloc_return;
storeNewCharPtr(
&( sigmeta->extended_info[sig_idx].emailList[
sigmeta->extended_info[sig_idx].emailCount ] ),
attr_string );
++sigmeta->extended_info[sig_idx].emailCount;
}
}
}
if( !sigmeta->extended_info[sig_idx].emailCount )
fprintf( stderr, "gpgmeplug checkMessageSignature found NO EMAIL\n" );
/* extract the comment */
attr_string = gpgme_key_get_string_attr(key, GPGME_ATTR_COMMENT, 0, 0);
if (attr_string != 0)
storeNewCharPtr( &sigmeta->extended_info[sig_idx].comment,
attr_string );
}
else
storeNewCharPtr( &sigmeta->extended_info[sig_idx].fingerprint, fpr );
sig_status = sig_status_to_string( status );
storeNewCharPtr( &sigmeta->extended_info[sig_idx].status_text,
sig_status );
} else
break; /* if allocation fails once, it isn't likely to
succeed the next time either */
fpr = gpgme_get_sig_status (*ctx, ++sig_idx, &status, &created);
}
sigmeta->extended_info_count = sig_idx;
sigmeta->nota_xml = gpgme_get_notation( *ctx );
sigmeta->status_code = status;
}
bool checkMessageSignature( char** cleartext,
const char* signaturetext,
bool signatureIsBinary,
int signatureLen,
struct SignatureMetaData* sigmeta )
{
GpgmeCtx ctx;
GpgmeSigStat status;
GpgmeData datapart, sigpart;
char* rClear = 0;
size_t clearLen;
bool isOpaqueSigned;
if( !cleartext ) {
if( sigmeta )
storeNewCharPtr( &sigmeta->status,
__GPGMEPLUG_ERROR_CLEARTEXT_IS_ZERO );
return false;
}
isOpaqueSigned = !*cleartext;
gpgme_new( &ctx );
gpgme_set_protocol (ctx, GPGMEPLUG_PROTOCOL);
gpgme_set_armor (ctx, signatureIsBinary ? 0 : 1);
/* gpgme_set_textmode (ctx, signatureIsBinary ? 0 : 1); */
if( isOpaqueSigned )
gpgme_data_new( &datapart );
else
gpgme_data_new_from_mem( &datapart, *cleartext,
strlen( *cleartext ), 1 );
gpgme_data_new_from_mem( &sigpart,
signaturetext,
signatureIsBinary
? signatureLen
: strlen( signaturetext ),
1 );
gpgme_op_verify( ctx, sigpart, isOpaqueSigned ? NULL : datapart,
isOpaqueSigned ? datapart : NULL, &status );
if( isOpaqueSigned ) {
rClear = gpgme_data_release_and_get_mem( datapart, &clearLen );
*cleartext = malloc( clearLen + 1 );
if( *cleartext ) {
if( clearLen )
strncpy(*cleartext, rClear, clearLen );
(*cleartext)[clearLen] = '\0';
}
free( rClear );
}
else
gpgme_data_release( datapart );
gpgme_data_release( sigpart );
obtain_signature_information( &ctx, status, sigmeta );
gpgme_release( ctx );
return ( status == GPGME_SIG_STAT_GOOD );
}
bool decryptAndCheckMessage( const char* ciphertext,
bool cipherIsBinary,
int cipherLen,
const char** cleartext,
const char* certificate,
bool* signatureFound,
struct SignatureMetaData* sigmeta,
int* errId,
char** errTxt )
{
GpgmeCtx ctx;
GpgmeError err;
GpgmeSigStat sigstatus;
GpgmeData gCiphertext, gPlaintext;
size_t rCLen = 0;
char* rCiph = 0;
bool bOk = false;
if( !ciphertext )
return false;
err = gpgme_new (&ctx);
gpgme_set_protocol (ctx, GPGMEPLUG_PROTOCOL);
gpgme_set_armor (ctx, cipherIsBinary ? 0 : 1);
/* gpgme_set_textmode (ctx, cipherIsBinary ? 0 : 1); */
/*
gpgme_data_new_from_mem( &gCiphertext, ciphertext,
1+strlen( ciphertext ), 1 ); */
gpgme_data_new_from_mem( &gCiphertext,
ciphertext,
cipherIsBinary
? cipherLen
: strlen( ciphertext ),
1 );
gpgme_data_new( &gPlaintext );
err = gpgme_op_decrypt_verify( ctx, gCiphertext, gPlaintext, &sigstatus );
gpgme_data_release( gCiphertext );
if( err ) {
fprintf( stderr, "\ngpgme_op_decrypt_verify() returned this error code: %i\n\n", err );
if( errId )
*errId = err;
if( errTxt ) {
const char* _errTxt = gpgme_strerror( err );
*errTxt = malloc( strlen( _errTxt ) + 1 );
if( *errTxt )
strcpy(*errTxt, _errTxt );
}
gpgme_data_release( gPlaintext );
gpgme_release( ctx );
return bOk;
}
rCiph = gpgme_data_release_and_get_mem( gPlaintext, &rCLen );
*cleartext = malloc( rCLen + 1 );
if( *cleartext ) {
if( rCLen ) {
bOk = true;
strncpy((char*)*cleartext, rCiph, rCLen );
}
((char*)(*cleartext))[rCLen] = 0;
}
free( rCiph );
if( signatureFound )
*signatureFound = sigstatus != GPGME_SIG_STAT_NONE;
if( sigmeta && sigstatus != GPGME_SIG_STAT_NONE )
obtain_signature_information( &ctx, sigstatus, sigmeta );
gpgme_release( ctx );
return bOk;
}