/[winpt]/trunk/Src/wptGPGME.cpp
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revision 23 by twoaday, Fri Sep 30 10:10:16 2005 UTC revision 212 by twoaday, Tue May 9 10:29:07 2006 UTC
# Line 1  Line 1 
1  /* wptGPGME.cpp - WinPT GPGME interface  /* wptGPGME.cpp - WinPT GPGME interface
2   *      Copyright (C) 2001-2005 Timo Schulz   *      Copyright (C) 2001-2005 Timo Schulz
3   *   *
4   * This file is part of WinPT.   * This file is part of WinPT.
5   *   *
6   * WinPT is free software; you can redistribute it and/or   * WinPT is free software; you can redistribute it and/or
7   * modify it under the terms of the GNU General Public License   * modify it under the terms of the GNU General Public License
8   * as published by the Free Software Foundation; either version 2   * as published by the Free Software Foundation; either version 2
9   * of the License, or (at your option) any later version.   * of the License, or (at your option) any later version.
10   *     *  
11   * WinPT is distributed in the hope that it will be useful,   * WinPT is distributed in the hope that it will be useful,
12   * but WITHOUT ANY WARRANTY; without even the implied warranty of   * but WITHOUT ANY WARRANTY; without even the implied warranty of
13   * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU   * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14   * General Public License for more details.   * General Public License for more details.
15   *   *
16   * You should have received a copy of the GNU General Public License   * You should have received a copy of the GNU General Public License
17   * along with WinPT; if not, write to the Free Software Foundation,   * along with WinPT; if not, write to the Free Software Foundation,
18   * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA   * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19   */   */
20    #ifdef HAVE_CONFIG_H
21  #include <sys/types.h>  #include <config.h>
22  #include <windows.h>  #endif
23    
24  #include "../resource.h"  #include <sys/types.h>
25  #include "wptNLS.h"  #include <windows.h>
26  #include "wptGPG.h"  
27  #include "wptErrors.h"  #include "resource.h"
28  #include "wptTypes.h"  #include "wptNLS.h"
29  #include "wptW32API.h"  #include "wptGPG.h"
30  #include "wptVersion.h"  #include "wptErrors.h"
31  #include "wptCommonCtl.h"  #include "wptTypes.h"
32  #include "wptContext.h"  #include "wptW32API.h"
33  #include "wptRegistry.h"  #include "wptVersion.h"
34  #include "wptDlgs.h"  #include "wptCommonCtl.h"
35    #include "wptContext.h"
36  #include "openpgp.h"  #include "wptRegistry.h"
37    #include "wptDlgs.h"
38  BOOL CALLBACK  keycache_dlg_proc (HWND dlg, UINT msg, WPARAM wparam, LPARAM lparam);  
39  void progress_cleanup (progress_filter_s * pfx);  #include "openpgp.h"
40    
41  static gpgme_keycache_t pub = NULL;  BOOL CALLBACK  keycache_dlg_proc (HWND dlg, UINT msg, WPARAM wparam, LPARAM lparam);
42  static gpgme_keycache_t sec = NULL;  void progress_cleanup (progress_filter_s * pfx);
43  static unsigned int reload = 0;  
44  static char *gpg_secring = NULL;  /* Global GPG key cache contexts. */
45    static gpg_keycache_t pub = NULL;
46  void  static gpg_keycache_t sec = NULL;
47  keycache_reload (HWND dlg)  static char *gpg_secring = NULL;
48  {        
49      refresh_cache_s rcs;  
50    /* Reload the key cache. */
51      memset (&rcs, 0, sizeof rcs);  void
52      rcs.kr_reload = rcs.kr_update = 1;  keycache_reload (HWND dlg)
53      rcs.tr_update = 0;  {      
54      DialogBoxParam (glob_hinst, (LPCSTR)IDD_WINPT_KEYCACHE, dlg,                                              refresh_cache_s rcs;
55                      keycache_dlg_proc, (LPARAM)&rcs);  
56  } /* keycache_reload */      memset (&rcs, 0, sizeof rcs);
57        rcs.kr_reload = rcs.kr_update = 1;
58  void      rcs.tr_update = 0;
59  keycache_release (void)      DialogBoxParam (glob_hinst, (LPCSTR)IDD_WINPT_KEYCACHE, dlg,                                        
60  {                      keycache_dlg_proc, (LPARAM)&rcs);
61      int n = gpgme_keycache_count (pub);  }
62      char tmpbuf[64];  
63    
64      /* XXX: update the value when the cache has changed. */  /* Release both key cache objects. If @cleanup is 1,
65      sprintf (tmpbuf, "%d", n);     also release other global structs. */
66      set_reg_key (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys", tmpbuf);  void
67    keycache_release (int cleanup)
68      if (pub) {  {
69          gpgme_keycache_release (pub);      int n = gpg_keycache_get_size (pub);
70          pub = NULL;      char tmpbuf[64];
71      }  
72      if (sec) {      /* XXX: update the value when the cache has changed. */
73          gpgme_keycache_release (sec);      sprintf (tmpbuf, "%d", n);
74          sec = NULL;      set_reg_key (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys", tmpbuf);
75      }  
76  } /* keycache_release */      if (pub) {
77            gpg_keycache_release (pub);
78            pub = NULL;
79  gpgme_error_t      }
80  keycache_update (int is_sec, const char *keyid)      if (sec) {
81  {          gpg_keycache_release (sec);
82      gpgme_keycache_t ctx = pub;          sec = NULL;
83      gpgme_error_t err;      }
84        if (cleanup)
85      if (is_sec)          safe_free (gpg_secring);
86          ctx = sec;  }
87      err =  gpgme_keycache_update_key (ctx, is_sec, pub, keyid);  
88      if (is_sec)  
89          gpgme_keycache_prepare_single (ctx, keyid, NULL, gpg_secring);  /* Update the key with the keyid @keyid in the key cache.
90      return err;     If @is_sec is 1, the secret key cache is used. */
91  }  gpgme_error_t
92    keycache_update (int is_sec, const char *keyid)
93  /* XXX: cache_keyring_names must be called then the GPG homedir changes! */  {
94        gpg_keycache_t ctx = pub;
95  gpgme_error_t      gpgme_error_t err;
96  keycache_init (const char *pubring, const char * secring)  
97  {      if (is_sec)
98      struct progress_filter_s pfx;          ctx = sec;
99      gpgme_error_t err;      err = gpg_keycache_update_key (ctx, is_sec, pub, keyid);
100      int val = 0;      if (is_sec)
101      char * p;          gpg_keycache_prepare_single (ctx, keyid, NULL, gpg_secring);
102        return err;
103      if (secring != NULL) {  }
104          free_if_alloc (gpg_secring);  
105          gpg_secring = get_gnupg_keyring (0, NO_STRICT);  
106      }  /* Initialize both cache contexts. Use @pubring for the public
107       keyring and @secring for the secret keyring. */
108      if (reload) {  gpgme_error_t
109          keycache_release ();  keycache_init (const char *pubring, const char *secring)
110          reload = 0;  {
111      }      struct progress_filter_s pfx;
112      p = get_reg_entry (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys");      gpgme_error_t err;
113      if (p && *p != ' ') {      int val = 0;
114          val = atoi (p);      char *p;
115          free_if_alloc (p);  
116          memset (&pfx, 0, sizeof (pfx));      if (secring != NULL) {
117      }          free_if_alloc (gpg_secring);
118            gpg_secring = get_gnupg_keyring (0, NO_STRICT);
119      err = gpgme_keycache_new (&pub);      }
120      if (err)      
121          return err;      p = get_reg_entry (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys");
122      if (val != 0)      if (p && *p != ' ') {
123          gpgme_keycache_set_cb (pub, progress_callback, &pfx, val);          val = atoi (p);
124      err = gpgme_keycache_new (&sec);          free_if_alloc (p);      
125      if (!err)      }
126          err = gpgme_keycache_init (pub, NULL, 0);  
127      if (!err)      memset (&pfx, 0, sizeof (pfx));
128          err = gpgme_keycache_init( sec, NULL, 1 );      /* Release old contexts first. */
129      if( !err && pubring && *pubring )      keycache_release (0);
130          err = gpgme_keycache_prepare( pub, pubring, NULL );  
131      if( !err && secring && * secring )      err = gpg_keycache_new (&pub);
132          err = gpgme_keycache_prepare( sec, NULL, secring );      if (err)
133      if (!err)          return err;
134          gpgme_keycache_sync (pub, sec);      if (val != 0)
135      if (val != 0)          gpg_keycache_set_cb (pub, progress_callback, &pfx, val);
136          progress_cleanup (&pfx);      err = gpg_keycache_new (&sec);
137      return err;      if (!err)
138  } /* keycache_init */          err = gpg_keycache_init (pub, NULL, 0);
139        if (!err)
140            err = gpg_keycache_init (sec, NULL, 1);
141  void      if (!err && pubring && *pubring)
142  keycache_set_reload( int yes )          err = gpg_keycache_prepare (pub, pubring, NULL);
143  {      if (!err && secring && * secring)
144      reload = yes;          err = gpg_keycache_prepare (sec, NULL, secring);
145  } /* keycache_set_reload */      if (!err)
146            gpg_keycache_sync (pub, sec);
147        if (val != 0)
148  int          progress_cleanup (&pfx);
149  keycache_get_reload( void )      return err;
150  {  }
151      return reload;  
152  } /* keycache_get_reload */  
153    /* Return the public cache context if @is_pub is set
154       the secre cache context otherwise. */
155  gpgme_keycache_t  gpg_keycache_t
156  keycache_get_ctx (int is_pub)  keycache_get_ctx (int is_pub)
157  {  {
158      return is_pub? pub : sec;      gpg_keycache_t ctx;
159  } /* keycache_get_ctx */  
160        ctx = is_pub? pub : sec;
161        if (!ctx)
162  static int          BUG (0);
163  get_key (const char *keyid, gpgme_key_t *r_key, struct keycache_s **c, int secret)      return ctx;
164  {  }
165      gpgme_keycache_t cache;  
166      gpgme_error_t err;  
167      int mode = secret? KEYCACHE_PRV : KEYCACHE_PUB;  /* Get the GPG key with keyid @keyid from the cache. Return it
168       in @r_key on success. */
169      if( !keyid )  static gpgme_error_t
170          return WPTERR_GENERAL;  get_key_from_cache (const char *keyid, gpgme_key_t *r_key,
171      if( r_key )                      struct keycache_s **c, int secret)
172          *r_key = NULL;  {
173      cache = keycache_get_ctx (mode);      gpg_keycache_t cache;
174      if( !cache )      gpgme_error_t err;
175          BUG( NULL );      int mode = secret? KEYCACHE_PRV : KEYCACHE_PUB;
176      if (!c)  
177          err = gpgme_keycache_find_key( cache, keyid, 0, r_key );      if (!keyid)
178      else          return gpg_error (GPG_ERR_INV_VALUE);
179          err = gpgme_keycache_find_key2 (cache, keyid, 0, r_key, c);      if (r_key)
180      if( err )          *r_key = NULL;
181          return WPTERR_GENERAL;      cache = keycache_get_ctx (mode);
182      return 0;      if (!c)
183  } /* get_key */          err = gpg_keycache_find_key (cache, keyid, 0, r_key);
184        else
185            err = gpg_keycache_find_key2 (cache, keyid, 0, r_key, c);
186  static int      return err;
187  get_key2( const char * keyid, gpgme_key_t * r_key, int secret )  }
188  {  
189      gpg_iobuf_t inp;  
190      char * p;  /* Get GPG key with keyid @keyid directly from GPG and return
191      int rc;     it in @r_key on success. */
192    static gpgme_error_t
193      p = get_gnupg_keyring (1, !NO_STRICT);  get_key_directly (const char *keyid, gpgme_key_t *r_key, int secret)
194      if( !p )  {
195          BUG( NULL );      gpgme_ctx_t ctx;
196        gpgme_error_t err;
197      inp = gpg_iobuf_open( p );  
198      if( !inp ) {      err = gpgme_new (&ctx);
199          const char *s = winpt_strerror( WPTERR_FILE_OPEN );      if (err)
200          log_box( _("WinPT Error"), 0, "%s: %s", p, s );          return err;
201          free_if_alloc( p );      err = gpgme_get_key (ctx, keyid, r_key, secret);
202          return NULL;      gpgme_release (ctx);
203      }      return err;
204      gpg_iobuf_ioctl( inp, 3, 1, NULL ); /* disable cache */  }
205      rc = gpgme_getkey_bykeyid( inp, keyid, r_key );  
206    
207      gpg_iobuf_close( inp );  /* Search the public key with @keyid as the keyid in the cache and
208      free_if_alloc( p );     return the item in @k. */
209      return rc;  gpgme_error_t
210  } /* get_key2 */  winpt_get_pubkey (const char *keyid, winpt_key_s *k)
211    {
212        gpgme_error_t err;
213  int      
214  winpt_get_pubkey (const char *keyid, winpt_key_s *k)      err = get_key_from_cache (keyid, &k->ctx, &k->ext, 0);
215  {      if (err)
216      int rc;          return err;
217            k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA &&
218      rc = get_key (keyid, &k->ctx, &k->ext, 0);                  strlen (k->ctx->subkeys->fpr) == 32;
219      if (rc)      k->is_protected = k->ext->gloflags.is_protected;
220          return rc;      k->keyid = k->ctx->subkeys->keyid+8;
221      k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA && strlen (k->ctx->subkeys->fpr) == 32;      k->uid = k->ext->uids->uid;
222      k->is_protected = k->ext->gloflags.is_protected;      return 0;
223      k->keyid = k->ctx->subkeys->keyid;  }
224      k->uid = k->ctx->uids->uid;  
225      return rc;  
226  }  gpgme_error_t
227    winpt_get_seckey (const char *keyid, winpt_key_s *k)
228    {
229  int      gpgme_error_t err;
230  winpt_get_seckey (const char *keyid, winpt_key_s *k)  
231  {      err = get_key_from_cache (keyid, &k->ctx, &k->ext, 1);
232      int rc;      if (err)
233      rc = get_key (keyid, &k->ctx, &k->ext, 1);          return err;
234      if (rc)      k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA &&
235          return rc;                  strlen (k->ctx->subkeys->fpr) == 32;
236      k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA && strlen (k->ctx->subkeys->fpr) == 32;      k->is_protected = k->ext->gloflags.is_protected;
237      k->is_protected = k->ext->gloflags.is_protected;      k->keyid = k->ctx->subkeys->keyid+8;
238      k->keyid = k->ctx->subkeys->keyid;      k->uid = k->ext->uids->uid;
239      k->uid = k->ctx->uids->uid;      return 0;
240      return rc;  }
241  }  
242    
243    gpgme_error_t
244  int  get_pubkey (const char *keyid, gpgme_key_t *ret_key)
245  get_pubkey (const char *keyid, gpgme_key_t *ret_key)  {
246  {      gpgme_error_t rc;
247      int rc = 0;  
248        if (pub && sec)
249      if (pub && sec)          rc = get_key_from_cache (keyid, ret_key, NULL, 0);
250          rc = get_key (keyid, ret_key, NULL, 0);      else
251      else          rc = get_key_directly (keyid, ret_key, 0);
252          rc = get_key2 (keyid, ret_key, 0);      return rc;
253      return rc;  }
254  } /* get_pubkey */  
255    
256    gpgme_error_t
257  int  get_seckey (const char *keyid, gpgme_key_t *ret_skey)
258  get_seckey( const char *keyid, gpgme_key_t *ret_skey )  {
259  {      gpgme_error_t rc;
260      int rc = 0;  
261        if (pub && sec)
262      if( pub && sec )          rc = get_key_from_cache (keyid, ret_skey, NULL, 1);
263          rc = get_key( keyid, ret_skey, NULL, 1 );      else
264      else          rc = get_key_directly (keyid, ret_skey, 1);
265          rc = get_key2( keyid, ret_skey, 1 );      return rc;
266      return rc;  }
267  } /* get_seckey */  
268    
269    /* Search for insecure ElGamal keys and return the
270  int     number of founded keys. */
271  count_insecure_elgkeys (void)  int
272  {  count_insecure_elgkeys (void)
273      gpgme_keycache_t pc;  {
274      gpgme_key_t key;      gpg_keycache_t pc;
275      int n=0;      gpgme_key_t key;
276        int n=0;
277      pc = keycache_get_ctx (1);  
278      if (!pc)      pc = keycache_get_ctx (1);
279          BUG (0);      while (!gpg_keycache_next_key (pc, 0, &key)) {
280      while (!gpgme_keycache_next_key (pc, 0, &key)) {          if (key->subkeys->pubkey_algo == GPGME_PK_ELG)
281          if (key->subkeys->pubkey_algo == GPGME_PK_ELG)              n++;
282              n++;      }
283      }      gpg_keycache_rewind (pc);
284      gpgme_keycache_rewind (pc);      return n;
285      return n;  }
286  }  
287    
288    
289    /* Map the signature summary in @sum to signature status table index.
290       Return value: index to table. */
291    static int
292    sigsum_to_index (gpgme_sigsum_t sum)
293    {
294        if ((sum & GPGME_SIGSUM_VALID) && (sum & GPGME_SIGSUM_KEY_REVOKED))
295            return 7;
296        if ((sum & GPGME_SIGSUM_VALID) && (sum & GPGME_SIGSUM_SIG_EXPIRED))
297            return 6;
298        if (sum & GPGME_SIGSUM_GREEN)
299            return 1;
300        else if (sum & GPGME_SIGSUM_RED)
301            return 2;
302        else if (sum & GPGME_SIGSUM_KEY_MISSING)
303            return 3;
304        return 0;
305    }
306    
307    
308    /* Return a humand readable description for the signature status @sum. */
309    const char*
310    get_gpg_sigstat (gpgme_sigsum_t sum)
311    {
312        const char *gpg_sigstat[] = {
313            _("Error during verification process."),
314            _("The signature is good."),
315            _("The signature is BAD!"),
316            _("The signature could not be checked due to a missing key."),
317            _("No valid OpenPGP signature."),
318            _("Signature Error"),
319            _("Good Signature (Expired Key)"),
320            _("Good Signature (Revoked Key)"),
321            NULL
322        };
323        const unsigned int mask = 8;
324    
325        return gpg_sigstat[sigsum_to_index (sum) % mask];
326    }
327    
328    
329    /* Check if the secret keyring contains at least one
330       key with ultimate trust.
331       Return value: 0 on success. */
332    int
333    check_ultimate_trusted_key (void)
334    {
335        struct keycache_s *n;
336    
337        for (n = sec->item; n; n = n->next) {
338            if (n->pubpart &&
339                n->pubpart->key->owner_trust == GPGME_VALIDITY_ULTIMATE)
340            return 0;
341        }
342        return -1;
343    }
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