/[winpt]/trunk/Src/wptKeyserver.cpp
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revision 193 by twoaday, Sat Apr 1 12:36:35 2006 UTC revision 340 by twoaday, Sun Nov 27 13:15:07 2011 UTC
# Line 1  Line 1 
1  /* wptKeyserver.cpp - W32 Keyserver Access  /* wptKeyserver.cpp - W32 Keyserver Access
2   *      Copyright (C) 2000-2005 Timo Schulz   *      Copyright (C) 2000-2009 Timo Schulz
3   *      Copyright (C) 2001 Marco Cunha   *      Copyright (C) 2001 Marco Cunha
4   *   *
5   * This file is part of WinPT.   * This file is part of WinPT.
# Line 13  Line 13 
13   * but WITHOUT ANY WARRANTY; without even the implied warranty of   * but WITHOUT ANY WARRANTY; without even the implied warranty of
14   * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU   * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15   * General Public License for more details.   * General Public License for more details.
  *  
  * You should have received a copy of the GNU General Public License  
  * along with WinPT; if not, write to the Free Software Foundation,  
  * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA  
16   */   */
   
17  #ifdef HAVE_CONFIG_H  #ifdef HAVE_CONFIG_H
18  #include <config.h>  #include <config.h>
19  #endif  #endif
# Line 29  Line 24 
24  #include <sys/stat.h>  #include <sys/stat.h>
25  #include <ctype.h>  #include <ctype.h>
26    
27    #include "wptGPG.h"
28  #include "wptKeyserver.h"  #include "wptKeyserver.h"
29  #include "wptErrors.h"  #include "wptErrors.h"
30  #include "wptTypes.h"  #include "wptTypes.h"
31  #include "wptNLS.h"  #include "wptNLS.h"
32  #include "wptW32API.h"  #include "wptW32API.h"
 #include "wptGPG.h"  
33  #include "wptRegistry.h"  #include "wptRegistry.h"
34    #include "wptUTF8.h"
35    #include "wptVersion.h"
36    #include "StringBuffer.h"
37    
 /* just map net_errno to a winsock error. */  
 #define net_errno ((int)WSAGetLastError ())  
38    
39    /* Map net_errno to a winsock error. */
40    #define net_errno ((int)WSAGetLastError ())
41    
42  keyserver server[MAX_KEYSERVERS] = {0};  keyserver server[MAX_KEYSERVERS] = {0};
43  keyserver_proxy_s proxy = {0};  keyserver_proxy_s proxy = {0};
44  static const char *server_list[] = {  static const char *server_list[] = {
45      "hkp://gnv.us.ks.cryptnet.net",      "hkp://pool.sks-keyservers.net",
     "hkp://keyserver.kjsl.com",  
     "hkp://sks.keyserver.penguin.de",  
46      "hkp://subkeys.pgp.net",      "hkp://subkeys.pgp.net",
47      "ldap://keyserver.pgp.com",      "http://minsky.surfnet.nl",
48      NULL      NULL
49  };  };
50    #define NUM_DEF_KEYSERVERS 3
51    
52    static char  hkp_err_msg[384];  /* Holds the error message from the server */
53  static char  hkp_errmsg[1024];  /* Holds the error message from the server */  static int   hkp_has_err = 0;   /* != 0 indicates an error occurred. */
 static int   hkp_err = 0;       /* != 0 indicates an error occurred. */  
54    
55  /* Default keyserver and port. */  /* Default keyserver and port. */
56  char *default_keyserver = NULL;  char *default_keyserver = NULL;
57  WORD default_keyserver_port = 0;  WORD default_keyserver_port = 0;
58    
59  /* Default socket timeout. */  /* Default socket timeout (secs). */
60  static int default_socket_timeout = 10;  static size_t default_socket_timeout = 6;
61    
62    
63    /* Remove %AB sequences from the input buffer @in
64       and store the raw data in @out. */
65    void
66    unhexify_buffer (const char *in, char **r_out)
67    {
68        char temp[3], *out;
69        size_t len, pos, i=0;
70    
71        len = strlen (in);
72        out = new char[len+1];
73        if (!out)
74            BUG (0);
75        memset (out, 0, len+1);
76        for (pos = 0; pos < len; pos++) {
77            if (in[pos] == '%' && in[pos+1] == '%')
78                out[i++] = '%';
79            else if (in[pos] == '%') {
80                temp[0] = in[++pos];
81                temp[1] = in[++pos];
82                temp[2] = 0;
83                out[i++] = (char)strtoul (temp, NULL, 16);
84            }
85            else
86                out[i++] = in[pos];
87        }
88        out[i] = 0;
89        *r_out = out;
90    }
91    
92    
93    /* Wrapper for safe memory allocation. */
94    static char*
95    safe_alloc (DWORD n)
96    {
97        char *p = new char[n+1];
98        if (!p)
99            BUG (0);
100        memset (p, 0, n);
101        return p;
102    }
103    
104    
105  /* Basic64 encode the input @inbuf to @outbuf. */  /* Basic64 encode the input @inbuf to @outbuf. */
106  static void  static void
# Line 70  base64_encode (const char *inbuf, char * Line 109  base64_encode (const char *inbuf, char *
109      char base64code[] =      char base64code[] =
110          "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";          "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
111      int index = 0, temp = 0, res = 0;      int index = 0, temp = 0, res = 0;
112      int i = 0, inputlen = 0, len = 0;      int inputlen, len = 0;
113            
114      inputlen = strlen (inbuf);      inputlen = strlen (inbuf);
115      for (i = 0; i < inputlen; i++) {      for (int i = 0; i < inputlen; i++) {
116          res = temp;          res = temp;
117          res = (res << 8) | (inbuf[i] & 0xFF);          res = (res << 8) | (inbuf[i] & 0xFF);
118          switch (index++) {          switch (index++) {
# Line 83  base64_encode (const char *inbuf, char * Line 122  base64_encode (const char *inbuf, char *
122              break;              break;
123          case 1:          case 1:
124              outbuf[len++] = base64code[res >> 4 & 0x3F];              outbuf[len++] = base64code[res >> 4 & 0x3F];
125              res &= 0xF;              res &= 0xF;
126              break;              break;
127          case 2:          case 2:
128              outbuf[len++] = base64code[res >> 6 & 0x3F];              outbuf[len++] = base64code[res >> 6 & 0x3F];
# Line 108  base64_encode (const char *inbuf, char * Line 147  base64_encode (const char *inbuf, char *
147  }  }
148    
149    
150    /* Check that the given buffer contains a valid keyserver URL
151       and return the prefix length, 0 in case of an error. */
152    static int
153    check_URL (const char *buf)
154    {
155        if (strstr (buf, "hkp://"))
156            return 6;
157        if (strstr (buf, "http://"))
158            return 7;
159        return 0;
160    }
161    
162    
163  /* Skip the URL schema and return only the host part of it. */  /* Skip the URL schema and return only the host part of it. */
164  static const char*  static const char*
165  skip_type_prefix (const char *hostname)  skip_type_prefix (const char *hostname)
166  {  {
167      if (hostname && !strncmp (hostname, "http://", 7))      int pos;
168          hostname += 7;  
169      else if (hostname && !strncmp (hostname, "hkp://", 6))      if (!hostname)
170          hostname += 6;          return hostname;
171      else if (hostname && !strncmp (hostname, "finger://", 9))  
172          hostname += 9;      pos = check_URL (hostname);
173      else if (hostname && !strncmp (hostname, "ldap://", 7))      if (pos > 0)
174          hostname += 7;          hostname += pos;
175      return hostname;      return hostname;
176  }  }
177    
178    
179    /* Parse the keyserver response and extract the human
180       readable text passages. */
181    static int
182    parse_keyserver_error (const char *resp, char *txt, size_t txtlen)
183    {
184        char *p, *p2;
185    
186        /* If we find no 'Error' substring we assume a success. */
187        if (!stristr (resp, "Error"))
188            return -1;
189    
190        memset (txt, 0, txtlen);
191        p = strstr (resp, "\r\n\r\n");
192        if (!p)
193            return -1;
194        resp += (p-resp);
195        p = strstr (resp, "<h1>");
196        if (!p)
197            return -1;
198        resp += (p-resp)+strlen ("<h1>");
199        p = strstr (resp, "</h1>");
200        if (!p)
201            return -1;
202        resp += (p-resp)+strlen ("</h1>");
203        p2 = strstr (resp, "</body>");
204        if (p2 != NULL)
205            memcpy (txt, resp, (p2-resp));
206        else {
207            if (!strnicmp (resp, "<p>", 3))
208                resp += 3;
209            while (resp && (*resp == '\r' || *resp == '\n'))
210                resp++;
211            memcpy (txt, resp, strlen (resp));
212        }
213        return 0;
214    }
215    
216    
217  /* Check that the keyserver response indicates an OK.  /* Check that the keyserver response indicates an OK.
218     Return 0 on success. */     Return 0 on success. */
219  static int  static int
220  check_hkp_response (const char *resp, int recv)  check_hkp_response (const char *resp, int recv)
221  {      {
222      char *p, *end;      int ec;
     int ec, len;  
223    
224      ec = recv ? WPTERR_WINSOCK_RECVKEY : WPTERR_WINSOCK_SENDKEY;      ec = recv ? WPTERR_WINSOCK_RECVKEY : WPTERR_WINSOCK_SENDKEY;
225      if (!strstr (resp, "HTTP/1.0 200 OK") &&      if (!resp)
         !strstr (resp, "HTTP/1.1 200 OK")) /* http error */  
226          return ec;          return ec;
227      if (strstr (resp, "Public Key Server -- Error")      log_debug ("check_hkp_response: '%s'\r\n", resp);    
228          || strstr (resp, "Public Key Server -- Error")      if (!strstr (resp, "HTTP/1.0 200 OK") &&
229          || strstr (resp, "No matching keys in database")) {          !strstr (resp, "HTTP/1.1 200 OK") &&
230          p = strstr (resp, "<p>");          !strstr (resp, "HTTP/1.0 500 OK") &&
231          if (p && strlen (p) < sizeof (hkp_errmsg)) {          !strstr (resp, "HTTP/1.1 500 OK"))
232              end = strstr (p, "</p>");          return ec; /* http error */
233              len = end? (end - p + 1) : strlen (p);  
234              memset (hkp_errmsg, 0, sizeof (hkp_errmsg));      if (!parse_keyserver_error (resp, hkp_err_msg, DIM (hkp_err_msg)-2)) {
235              strncpy (hkp_errmsg, p, len);          if (!strlen (hkp_err_msg))
236              hkp_err = 1;              _snprintf (hkp_err_msg, DIM (hkp_err_msg)-1,
237          }                          "Unknown keyserver error");
238            hkp_has_err = 1;
239          return ec;          return ec;
240      }      }
241      return 0;      return 0;
# Line 159  static int Line 248  static int
248  sock_getline (int fd, char *buf, int buflen, int *nbytes)  sock_getline (int fd, char *buf, int buflen, int *nbytes)
249  {  {
250      char ch;      char ch;
251      int nread = 0;            int nread;
252            
253      if (nbytes)      if (nbytes)
254          *nbytes = 0;          *nbytes = 0;
255      *buf = 0;      *buf = 0;
256        nread = 0;
257      while (recv (fd, &ch, 1, 0) > 0) {      while (recv (fd, &ch, 1, 0) > 0) {
258          *buf++ = ch;          *buf++ = ch;
259          nread++;          nread++;
# Line 182  sock_getline (int fd, char *buf, int buf Line 272  sock_getline (int fd, char *buf, int buf
272    
273    
274  /* Perform a select() on the given fd to find out  /* Perform a select() on the given fd to find out
275     is there is data for reading. Wait at least @nsecs seconds. */     is there is data for reading. Wait at least @nsecs milli seconds. */
276  static int  static int
277  sock_select (int fd, int nsecs)  sock_select (int fd, int nmsecs)
278  {  {
279      FD_SET rfd;      FD_SET rfd;
280      timeval tv = {nsecs, 0};      timeval tv = {0, nmsecs*1000};
281    
282      FD_ZERO (&rfd);      FD_ZERO (&rfd);
283      FD_SET (fd, &rfd);      FD_SET (fd, &rfd);
# Line 206  sock_select (int fd, int nsecs) Line 296  sock_select (int fd, int nsecs)
296     returned in @nbytes.     returned in @nbytes.
297     Return value: 0 on success. */     Return value: 0 on success. */
298  static int  static int
299  sock_read (int fd, char *buf, int buflen, int *nbytes)  sock_read (int fd, char *buf, size_t buflen, int *nbytes)
300  {  {    
301      DWORD nread;      size_t nleft = buflen;
302      int nleft = buflen;      size_t n;
303      int rc, n = 0;      int nread;
304        int rc;
305        
306        if (nbytes)
307            *nbytes = 0;
308        n = 0;
309      while (nleft > 0) {      while (nleft > 0) {
310          if (n >= default_socket_timeout)          if (n >= default_socket_timeout)
311              return WPTERR_WINSOCK_TIMEOUT;              return WPTERR_WINSOCK_TIMEOUT;
312          rc = sock_select (fd, 1);          rc = sock_select (fd, 400);
313          if (rc == SOCKET_ERROR)          if (rc == SOCKET_ERROR)
314              return rc;              return rc;
315          else if (!rc)          else if (!rc)
# Line 238  sock_read (int fd, char *buf, int buflen Line 332  sock_read (int fd, char *buf, int buflen
332      return 0;      return 0;
333  }  }
334    
335    
336    /* Helper to create a string from the gpgme data and
337       then release the gpgme data object. */
338    char*
339    data_release_and_get_mem (gpgme_data_t in, size_t *r_bufferlen)
340    {    
341        char *buffer, *p;
342        size_t n;
343    
344        gpg_data_putc (in, '\0');
345        p = gpgme_data_release_and_get_mem (in, &n);
346        buffer = m_strdup (p);
347        if (r_bufferlen)
348            *r_bufferlen = n;
349        gpgme_free (p);
350        return buffer;
351    }
352    
353    
354  /* Read much data as possible from the socket @fd and  /* Read much data as possible from the socket @fd and
355     return the data in @buffer. Caller must free data.     return the data in @buffer. Caller must free data.
356     Return value: 0 on success. */     Return value: 0 on success. */
357  int  int
358  sock_read_ext (int fd, char **buffer, int *r_bufferlen)  sock_read_ext (int fd, char **buffer, size_t *r_bufferlen)
359  {  {
360      gpgme_data_t dh;      gpgme_data_t dh;
361      char buf[1024], *p;      char buf[1024];
362      size_t n=0;      size_t timeout=0;
363      int nread, rc;      int rc;
364    
365      gpgme_data_new (&dh);      *buffer = NULL;
366      while (n < 10) {      if (gpgme_data_new (&dh))
367          rc = sock_select (fd, 1);          return SOCKET_ERROR;
368        while (timeout < default_socket_timeout) {
369            rc = sock_select (fd, 500);
370          if (rc == SOCKET_ERROR) {          if (rc == SOCKET_ERROR) {
371              gpgme_data_release (dh);              gpgme_data_release (dh);
372              return rc;              return rc;
373          }          }
374          else if (!rc)          else if (!rc)
375              n++;              timeout++; /* socket not ready yet. */
376          else {          else {
377              nread = recv (fd, buf, sizeof (buf), 0);              int nread = recv (fd, buf, DIM (buf), 0);
378                log_debug ("recv n=%d bytes\r\n", nread);
379              if (nread == SOCKET_ERROR)              if (nread == SOCKET_ERROR)
380                  return SOCKET_ERROR;                  return SOCKET_ERROR;
381              else if (!nread)              else if (!nread)
# Line 267  sock_read_ext (int fd, char **buffer, in Line 383  sock_read_ext (int fd, char **buffer, in
383              gpgme_data_write (dh, buf, nread);              gpgme_data_write (dh, buf, nread);
384          }          }
385      }      }
386      gpg_data_putc (dh, '\0');      
387      p = gpgme_data_release_and_get_mem (dh, &n);      if (timeout >= default_socket_timeout) {
388      *buffer = m_strdup (p);          gpgme_data_release (dh);
389      if (r_bufferlen)          log_debug ("sock_read_ext: timeout\r\n");
390          *r_bufferlen = n;          return WPTERR_WINSOCK_TIMEOUT;
391      gpgme_free (p);      }
392        log_debug ("sock_read_ext: success\r\n");
393        *buffer = data_release_and_get_mem (dh, r_bufferlen);
394      return 0;      return 0;
395  }  }
396    
397    
398  /* Write the buffer @buf with the length @buflen to a socket @fd. */  /* Write the buffer @buf with the length @buflen to a socket @fd. */
399  static int  static int
400  sock_write (int fd, const char *buf, int buflen)  sock_write (int fd, const char *buf, size_t buflen)
401  {  {
402      DWORD nwritten;      int nwritten;
403      int nleft = buflen;      int nleft = buflen;
404    
405      while (nleft > 0) {      while (nleft > 0) {
# Line 312  wsock_init (void) Line 430  wsock_init (void)
430  }  }
431    
432    
433  /* Cleanup the Winsock2 interface. */  /* Cleanup the Winsock2 interface and free all resources. */
434  void  void
435  wsock_end (void)  wsock_end (void)
436  {  {
437      char *p;      if (default_keyserver != NULL) {
438      int i;          char str_port[64];
439            set_reg_entry_keyserver ("Default", default_keyserver);
440      p = make_special_filename (CSIDL_APPDATA, "winpt\\keyserver.conf", NULL);          free_if_alloc (default_keyserver);
441      kserver_save_conf (p);          sprintf (str_port, "%d", default_keyserver_port);
442      free_if_alloc (p);          set_reg_entry_keyserver ("Default_Port", str_port);
443      free_if_alloc (default_keyserver);      }  
444      for (i=0; i < MAX_KEYSERVERS; i++) {      for (int i=0; i < MAX_KEYSERVERS; i++) {
445          if (server[i].used && server[i].name != NULL)          if (server[i].name != NULL)
446              free_if_alloc (server[i].name);              free_if_alloc (server[i].name);
447      }      }
448      kserver_proxy_release (&proxy);      kserver_proxy_release (&proxy);
449      WSACleanup ();      WSACleanup ();
450        log_debug ("wsock_end: cleanup finished.\r\n");
451  }  }
452    
453    
454  /* Return a string representation of a winsock error. */  /* Return a string representation of a winsock error. */
455  const char*  const char*
456  wsock_strerror (void)  wsock_strerror (void)
457  {      {
     static char buf[384];  
458      int ec = WSAGetLastError ();      int ec = WSAGetLastError ();
459            
460        if (!ec)
461            return "";
462      switch (ec) {      switch (ec) {
463        case WSANOTINITIALISED:
464            return _("Winsock subsystem has not been initialized");
465            
466      case WSAENETDOWN:      case WSAENETDOWN:
467          return _("The network subsystem has failed");          return _("Network subsystem has failed");
468    
469    
470        case WSATRY_AGAIN:
471            return _("Nonauthoritative host not found, or server failure");
472            
473      case WSAHOST_NOT_FOUND:      case WSAHOST_NOT_FOUND:
474          return _("Authoritative Answer Host not found");          return _("Could not resolve host name");
475    
476      case WSAETIMEDOUT:      case WSAETIMEDOUT:
477          return _("The connection has been dropped because of a network failure");      case WSAECONNABORTED:
478            return _("Connection timeout");
479    
480        case WSAENETRESET:
481        case WSAECONNRESET:
482            return _("Connection resetted by peer");
483    
484        case WSAENETUNREACH:
485            return _("The network cannot be reached from this host at this time");
486            
487        case WSAEHOSTUNREACH:
488            return _("A socket operation was attempted to an unreachable host");
489            
490        case WSAECONNREFUSED:
491            return _("The attempt to connect was forcefully rejected");
492            
493        case WSAESHUTDOWN:
494            return _("Socket has been shutdown");
495    
496      default:      default:
497          _snprintf (buf, sizeof (buf) -1, _("Unknown Winsock error ec=%d"),ec);          break;
         return buf;  
498      }      }
499      return NULL;  
500        return _("Unknown network error");
501  }  }
502    
503    
504  /* Set default socket timeout for all reading operations. */  /* Set default socket timeout for all reading operations. */
505  void  void
506  kserver_set_socket_timeout (int nsec)  kserver_set_socket_timeout (size_t nsec)
507  {  {
508      if (nsec < 0)      if (nsec < 0 || nsec > 3600)
509          nsec = 0;          nsec = 10;
510      default_socket_timeout = nsec;      default_socket_timeout = nsec;
511  }  }
512    
# Line 368  kserver_set_socket_timeout (int nsec) Line 515  kserver_set_socket_timeout (int nsec)
515  const char*  const char*
516  kserver_strerror (void)  kserver_strerror (void)
517  {        {      
518      if (hkp_err)      return hkp_has_err? hkp_err_msg : NULL;
         return hkp_errmsg;  
     return NULL;  
519  }  }
520    
521    
# Line 383  kserver_get_hostname (int idx, int type, Line 528  kserver_get_hostname (int idx, int type,
528          *port = default_keyserver_port;          *port = default_keyserver_port;
529          return default_keyserver;          return default_keyserver;
530      }      }
531      else if (!type && idx < DIM (server_list)) {      else if (!type && (size_t)idx < DIM (server_list)) {
532          *port = HKP_PORT;          *port = HKP_PORT;
533          return server_list[idx];          return server_list[idx];
534      }      }
# Line 402  kserver_check_inet_connection (void) Line 547  kserver_check_inet_connection (void)
547          closesocket (fd);          closesocket (fd);
548          return 0;          return 0;
549      }      }
550        log_debug ("kserver_check_inet_connection: no inet connection.\r\n");
551      return -1;      return -1;
552  }  }
553    
# Line 413  kserver_check_inet_connection (void) Line 559  kserver_check_inet_connection (void)
559  const char*  const char*
560  kserver_check_keyid (const char *keyid)  kserver_check_keyid (const char *keyid)
561  {        {      
562      static char id[21];      static char id[64];
563    
564      if (strstr (keyid, "@"))      if (strstr (keyid, "@"))
565          return keyid; /* email address */          return keyid; /* email address */
566      if (strncmp (keyid, "0x", 2)) {      if (strncmp (keyid, "0x", 2)) {
567          memset (&id, 0, sizeof (id));          memset (&id, 0, sizeof (id));
568          _snprintf (id, sizeof (id)-1, "0x%s", keyid);          _snprintf (id, DIM (id)-1, "0x%s", keyid);
569          return id;          return id;
570      }      }
571      return keyid;      return keyid;
# Line 431  static void Line 577  static void
577  update_proxy_user (const char *proxy_user, const char *proxy_pass)  update_proxy_user (const char *proxy_user, const char *proxy_pass)
578  {  {
579      char t[257]; /* user:pass = 127+1+127+1 = 257 */      char t[257]; /* user:pass = 127+1+127+1 = 257 */
580      int n = 0;      size_t n;
581    
582      n = 4*strlen (proxy_user) / 3 + 32 + strlen (proxy_pass) + 2;      n = 4*(strlen (proxy_user) + strlen (proxy_pass))/3 + 32 + 2;
583      free_if_alloc (proxy.base64_user);      free_if_alloc (proxy.base64_user);
584      proxy.base64_user = new char[n];      proxy.base64_user = safe_alloc (n+1);
585      if (!proxy.base64_user)      _snprintf (t, DIM (t)-1, "%s:%s", proxy_user, proxy_pass);
         BUG (0);  
     _snprintf (t, sizeof (t)-1, "%s:%s", proxy_user, proxy_pass);  
586      base64_encode (t, proxy.base64_user);      base64_encode (t, proxy.base64_user);
587      free_if_alloc (proxy.user);      free_if_alloc (proxy.user);
588      free_if_alloc (proxy.pass);      free_if_alloc (proxy.pass);
# Line 447  update_proxy_user (const char *proxy_use Line 591  update_proxy_user (const char *proxy_use
591  }  }
592    
593    
594  /* Check that the given buffer contains a valid keyserver URL. */  /* Set the default keyserver. The position is always one. */
 static int  
 check_URL (const char * buf)  
 {  
     if (strlen (buf) < 7)  
         return -1;  
     if (!strstr (buf, "ldap://")  
         && !strstr (buf, "http://")  
         && !strstr (buf, "finger://")  
         && !strstr (buf, "hkp://"))  
         return -1;  
     return 0;  
 }  
       
   
 /* Get the port number from the given protocol. */  
 static int  
 port_from_proto (int proto)  
 {  
     switch (proto) {  
     case KSPROTO_LDAP: return 0;  
     case KSPROTO_FINGER: return FINGER_PORT;  
     case KSPROTO_HTTP: return HKP_PORT;  
     }  
     return 0;  
 }  
   
   
 /* Get the port number from the given URL. */  
 static int  
 proto_from_URL (const char *buf)  
 {  
     if (strstr( buf, "ldap"))  
         return KSPROTO_LDAP;  
     else if (strstr( buf, "finger"))  
         return KSPROTO_FINGER;  
     return KSPROTO_HKP;  
 }  
   
   
595  void  void
596  keyserver_set_default (const char *hostname, WORD port)  keyserver_set_default (const char *hostname, WORD port)
597  {  {
598      if (hostname != NULL) {      int pos=0;
599          free_if_alloc (default_keyserver);      
600          default_keyserver = m_strdup (hostname);      if (port == 0)
         if (!default_keyserver)  
             BUG (0);  
         default_keyserver_port = port;  
     }  
     if (!port)  
601          port = HKP_PORT;          port = HKP_PORT;
602      if (!default_keyserver)      
603          default_keyserver = m_strdup (DEF_HKP_KEYSERVER);      free_if_alloc (default_keyserver);
604      server[0].name =  m_strdup (default_keyserver);      default_keyserver = m_strdup (hostname);
605      server[0].used = 1;      default_keyserver_port = port;
606      server[0].port = port;      
607      server[0].proto = proto_from_URL (default_keyserver);      while (pos < MAX_KEYSERVERS) {
608            if (server[pos].is_default)
609                break;
610            if (server[pos].used) {
611                pos++;
612                continue;
613            }
614            break;
615        }
616        free_if_alloc (server[pos].name);
617        server[pos].name =  m_strdup (default_keyserver);
618        server[pos].used = 1;
619        server[pos].port = port;
620        server[pos].is_default = 1;
621  }  }
622    
623    
624  /* Skip all kind of whitespace chars in @str. */  /* Skip all kind of whitespace chars in @str.
625  static const char*  static const char*
626  skip_whitespace (const char *str)  skip_whitespace (const char *str)
627  {  {
# Line 523  skip_whitespace (const char *str) Line 636  skip_whitespace (const char *str)
636          break;          break;
637      }      }
638      return str;      return str;
639    }*/
640    
641    
642    /* Return the specified keyserver config setting @key as an integer. */
643    static int
644    get_conf_kserver_int (const char *key)
645    {
646        char *p;
647        int val = 0;
648    
649        p = get_reg_entry_keyserver (key);
650        if (p && *p)
651            val = atoi (p);
652        free_if_alloc (p);
653        return val;
654  }  }
655    
656    
657  /* Save the keyserver config file in @conf. */  /* Read the proxy configuration and store it into @prox. */
658  int  static void
659  kserver_save_conf (const char *conf)  read_proxy_config (keyserver_proxy_t prox)
660  {  {
661      FILE *fp;      char *proto;
     int pos;  
662    
663      fp = fopen (conf, "wb");      if (!prox)
664      if (!fp) {          return;
665          msg_box (NULL, _("Could not save keyserver.conf file"),      
666                   _("Keyserver"), MB_ERR);      proto = get_reg_entry_keyserver("Proto");
667          return -1;      if (proto != NULL && strlen (proto) > 0)
668      }          prox->proto = atoi (proto);
669        else
670            prox->proto = PROXY_PROTO_NONE;
671        free_if_alloc (proto);
672        
673        free_if_alloc (prox->host);
674        prox->host = get_reg_entry_keyserver ("Host");
675        
676        free_if_alloc (prox->user);
677        prox->user = get_reg_entry_keyserver ("User");
678        
679        free_if_alloc (prox->pass);
680        prox->pass = get_reg_entry_keyserver ("Pass");
681        
682        prox->port = get_conf_kserver_int ("Port");
683    }
684    
685      fprintf (fp, "# do NOT manually modify this file, it will be "  
686                   "generated automatically!!\r\n");  static int
687      for (pos = 0; pos < MAX_KEYSERVERS; pos++) {  is_keyserver_present (const char *name)
688          if (!server[pos].used)  {
689              continue;      for (int i=0; i < MAX_KEYSERVERS; i++) {
690          fprintf (fp, "%s:%d\r\n", server[pos].name, server[pos].port);          if (server[i].name != NULL &&
691                stricmp (server[i].name, name) == 0)
692                return 1;
693      }      }
     fclose (fp);  
694      return 0;      return 0;
695  }  }
696    
697    /* Load the keyserver configuration. */
 /* Load the keyserver config file @conf. */  
698  int  int
699  kserver_load_conf (const char *conf)  kserver_load_conf (void)
700  {      {
701      FILE *fp;      char *str_server, *str_port;
702      char buf[1024], *s, *p;      int port, list_pos;    
     char *user = NULL, *pass = NULL;      
     int no_config=0, chk_pos=0;  
     int pos;  
       
     for (pos = 0; pos < MAX_KEYSERVERS; pos++) {  
         server[pos].used = 0;  
         server[pos].port = HKP_PORT;  
     }  
703            
704      fp = fopen (conf, "rb");      /* If a preferred keyserver is available, load
705      if (!fp) {       * the values and store it at position 0.
706          for (pos = 0; server_list[pos]; pos++) {       */
707              server[pos].used = 1;      str_server = get_reg_entry_keyserver("Default");
708              server[pos].name = m_strdup (server_list[pos]);      if (str_server && *str_server) {
709              server[pos].proto = proto_from_URL (server_list[pos]);          port = HKP_PORT;
710          }          str_port = get_reg_entry_keyserver("Default_Port");
711          no_config=1;          if (str_port && *str_port)
712      }              port = atoi (str_port);        
713      get_reg_proxy_prefs (&proxy);          keyserver_set_default (str_server, port);
714      if (user && pass)          free_if_alloc (str_port);
715          update_proxy_user (user, pass);      }
716      else if (user && !pass || !user && pass) {      free_if_alloc (str_server);
717          msg_box (NULL, _("Invalid proxy configuration."      
718                           "You need to set a user and a password"      /* Now add the default pool servers after the
719                           "to use proxy authentication!"),       * preferred keyserver if present.
720                           _("Proxy Error"), MB_ERR);       */
721      }      list_pos = 1;
722      /* check if the host has a http:// prefix and skip it */      for (int i=0; server_list[i] != NULL; i++) {
723      if (proxy.host && !strncmp (proxy.host, "http://", 7)) {          if (is_keyserver_present (server_list[i]))
         char *host = m_strdup (proxy.host+7);  
         if (!host)  
             BUG (0);  
         free_if_alloc (proxy.host);  
         proxy.host = host;  
     }  
     free_if_alloc (user);  
     free_if_alloc (pass);  
       
     pos = 0;  
     while (fp && !feof (fp)) {  
         s = fgets (buf, sizeof (buf)-1, fp);  
         if (!s)  
             break;  
         if (strstr (buf, "\r\n"))  
             buf[strlen (buf)-2] = '\0';  
         if (strstr (buf, "\n"))  
             buf[strlen (buf)-1] = '\0';  
         s = (char *)skip_whitespace (buf);  
         if (*s == '#' || strlen (s) < 7)  
             continue;  
         if (check_URL (s)) {  
             msg_box (NULL, _("All entries of this file must have a valid prefix.\n"  
                              "Currently HKP/HTTP, LDAP and FINGER are supported.\n"),  
                              _("Keyserver Error"), MB_ERR);  
724              continue;              continue;
725          }          server[list_pos].used = 1;
726          chk_pos = 6;          server[list_pos].port = HKP_PORT;
727          if (strstr (s, "finger"))          server[list_pos].name = m_strdup (server_list[i]);
728              chk_pos = 10;          server[list_pos].is_default = 0;
729          p = strchr (s+chk_pos, ':');          list_pos++;
730          server[pos].used = 1;          if (list_pos > MAX_KEYSERVERS)
         server[pos].proto = proto_from_URL (s);  
         server[pos].port = port_from_proto (server[pos].proto);  
         if (!p)  
             server[pos].name = m_strdup (s);  
         else {        
             server[pos].port = atol (p+1);  
             if (server[pos].port < 0 || server[pos].port > 65536)  
                 server[pos].port = HKP_PORT;  
             server[pos].name = new char [(p-s)+2];  
             if (!server[pos].name)  
                 BUG (0);  
             memset (server[pos].name, 0, (p-s)+2);  
             memcpy (server[pos].name, s, (p-s));  
         }  
         pos++;  
         if (pos > MAX_KEYSERVERS) {  
             msg_box (NULL, _("The keyserver limit is exceeded"),  
                      _("Keyserver Warning"), MB_INFO);  
731              break;              break;
         }  
732      }      }
     if (fp)  
         fclose (fp);  
     if (!pos) {  
         /* only issue an error if the config file exist but  
            it has no valid entries. */  
         keyserver_set_default (NULL, HKP_PORT);  
         if (!no_config)  
             return WPTERR_CONFIG_FILE;  
     }  
   
733      return 0;      return 0;
734  }  }
735    
# Line 658  kserver_load_conf (const char *conf) Line 738  kserver_load_conf (const char *conf)
738     Return value: 0 on success */     Return value: 0 on success */
739  int  int
740  kserver_connect (const char *hostname, WORD port, int *conn_fd)  kserver_connect (const char *hostname, WORD port, int *conn_fd)
741  {  {        
     int rc, fd;  
     DWORD iaddr;  
     char host[128] = {0};  
742      struct hostent *hp;      struct hostent *hp;
743      struct sockaddr_in sock;      struct sockaddr_in sock;
744        char host[128] = {0};
745      log_debug ("kserver_connect: %s:%d\r\n", hostname, port);      DWORD iaddr;
746        bool use_proxy = proxy.host != NULL;
747        int rc, fd;
748    
749      if (!port)      if (!port)
750          port = HKP_PORT;          port = HKP_PORT;
751      if (conn_fd)      if (conn_fd)
752          *conn_fd = 0;          *conn_fd = 0;
753      hostname = skip_type_prefix (hostname);      hostname = skip_type_prefix (hostname);
754        log_debug ("kserver_connect: %s:%d\r\n", hostname, port);
755            
756        if (use_proxy && proxy.proto == PROXY_PROTO_HTTP)
757            port = proxy.port;
758      memset (&sock, 0, sizeof (sock));      memset (&sock, 0, sizeof (sock));
759      sock.sin_family = AF_INET;      sock.sin_family = AF_INET;
760      sock.sin_port = proxy.host? htons (proxy.port) : htons (port);      sock.sin_port = htons (port);
761      if (proxy.host)      strncpy (host, use_proxy? proxy.host : hostname, DIM (host)-1);
762          strncpy (host, proxy.host, 127);  
     else  
         strncpy (host, hostname, 127);  
       
763      if ((iaddr = inet_addr (host)) != INADDR_NONE)      if ((iaddr = inet_addr (host)) != INADDR_NONE)
764          memcpy (&sock.sin_addr, &iaddr, sizeof (iaddr));          memcpy (&sock.sin_addr, &iaddr, sizeof (iaddr));
765      else if ((hp = gethostbyname (host))) {      else if ((hp = gethostbyname (host))) {
# Line 691  kserver_connect (const char *hostname, W Line 770  kserver_connect (const char *hostname, W
770          memcpy (&sock.sin_addr, hp->h_addr, hp->h_length);          memcpy (&sock.sin_addr, hp->h_addr, hp->h_length);
771      }      }
772      else {      else {
773          log_debug ("gethostbyname: failed ec=%d.\r\n", net_errno);          log_debug ("gethostbyname(%s): failed ec=%d.\r\n", host, net_errno);
774          return WPTERR_WINSOCK_RESOLVE;          return use_proxy? WPTERR_WINSOCK_PROXY : WPTERR_WINSOCK_RESOLVE;
775      }      }
776      fd = socket (AF_INET, SOCK_STREAM, 0);      fd = socket (AF_INET, SOCK_STREAM, 0);
777      if (fd == INVALID_SOCKET)        if (fd == INVALID_SOCKET)  
# Line 701  kserver_connect (const char *hostname, W Line 780  kserver_connect (const char *hostname, W
780      if (rc == SOCKET_ERROR) {      if (rc == SOCKET_ERROR) {
781          log_debug ("connect: failed ec=%d.\r\n", net_errno);          log_debug ("connect: failed ec=%d.\r\n", net_errno);
782          closesocket (fd);          closesocket (fd);
783          return WPTERR_WINSOCK_CONNECT;          return use_proxy? WPTERR_WINSOCK_PROXY : WPTERR_WINSOCK_CONNECT;
     }  
   
     if (proxy.proto == PROXY_PROTO_SOCKS5) {  
         rc = socks_handshake (&proxy, fd, hostname, port);  
         if (rc) {  
             closesocket (fd);  
             return WPTERR_GENERAL; /* XXX: use better code. */  
         }  
784      }      }
785        
786      if (conn_fd)      if (conn_fd)
787          *conn_fd = fd;          *conn_fd = fd;
788      WSASetLastError (0);      WSASetLastError (0);
# Line 719  kserver_connect (const char *hostname, W Line 790  kserver_connect (const char *hostname, W
790  }  }
791    
792    
793    /* Check if the URL needs to be encoded or not.
794  static bool  static bool
795  URL_must_encoded (const char *url)  URL_must_encoded (const char *url)
796  {  {
797      if (strchr (url, '.') || strchr (url, '@') || strchr (url, ' '))      if (strchr (url, '.') || strchr (url, '@') || strchr (url, ' '))
798          return true;          return true;
799      return false;      return false;
800  }  }*/
801    
802    
803  /* Perform URL encoding of the given data. */  /* Perform URL encoding of the given data. */
804  static char*  static char*
805  URL_encode (const char *url, size_t ulen, size_t *ret_nlen)  URL_encode (const char *url, DWORD ulen, DWORD *ret_nlen)
806  {  {
807      gpgme_data_t hd;      gpgme_data_t hd;
808      char numbuf[5], *pp, *p;      char numbuf[8], *p;
809      size_t i, n;      size_t i, nlen;
810    
811      gpgme_data_new (&hd);      if (gpgme_data_new (&hd))
812            BUG (0);
813      for (i=0; i < ulen; i++) {      for (i=0; i < ulen; i++) {
814          if (isalnum (url[i]) || url[i] == '-')          if (isalnum (url[i]) || url[i] == '-')
815              gpg_data_putc (hd, url[i]);              gpg_data_putc (hd, url[i]);
# Line 747  URL_encode (const char *url, size_t ulen Line 820  URL_encode (const char *url, size_t ulen
820              gpgme_data_write (hd, numbuf, strlen (numbuf));              gpgme_data_write (hd, numbuf, strlen (numbuf));
821          }          }
822      }      }
     gpg_data_putc (hd, '\0');  
823    
824      /* Copy memory to avoid that we need to use gpgme_free later. */      p = data_release_and_get_mem (hd, &nlen);
     pp = gpgme_data_release_and_get_mem (hd, &n);  
     p = m_strdup (pp);  
     gpgme_free (pp);  
825      if (ret_nlen)      if (ret_nlen)
826          *ret_nlen = n;          *ret_nlen = nlen;
827      return p;      return p;
828  }  }
829    
# Line 762  URL_encode (const char *url, size_t ulen Line 831  URL_encode (const char *url, size_t ulen
831  /* Format a request for the given keyid (send). */  /* Format a request for the given keyid (send). */
832  static char*  static char*
833  kserver_send_request (const char *hostname, WORD port,  kserver_send_request (const char *hostname, WORD port,
834                        const char *pubkey, int octets)                        const char *pubkey, DWORD octets)
835  {  {
836      char *request = NULL;      const char *fmt;
837      char *enc_pubkey = NULL;      char *request;
838      size_t enc_octets;      char *enc_pubkey;
839        DWORD enc_octets;
840      int reqlen;      int reqlen;
841    
842      log_debug ("kserver_send_request: %s:%d\r\n", hostname, port);      log_debug ("kserver_send_request: %s:%d\r\n", hostname, port);
843    
844      if (!port)      if (!port)
845          port = HKP_PORT;          port = HKP_PORT;
     reqlen = 512 + strlen (hostname) + 2*strlen (pubkey);  
     request = new char[reqlen];  
     if (!request)  
         BUG (0);  
846      enc_pubkey = URL_encode (pubkey, octets, &enc_octets);      enc_pubkey = URL_encode (pubkey, octets, &enc_octets);
847      if (!enc_pubkey || !enc_octets) {      reqlen = 2*strlen (hostname) + 2*32/*port*/ + enc_octets + 32 /*len*/ + 1;
         free_if_alloc (request);  
         return NULL;  
     }  
848            
849      if (proxy.user && proxy.proto == PROXY_PROTO_HTTP) {      if (proxy.user && proxy.proto == PROXY_PROTO_HTTP) {
850          _snprintf (request, reqlen-1,          fmt = "POST http://%s:%d/pks/add HTTP/1.0\r\n"
851                     "POST http://%s:%d/pks/add HTTP/1.0\r\n"                "Referer: \r\n"
852                     "Referer: \r\n"                "User-Agent: WinPT/W32\r\n"
853                     "User-Agent: WinPT/W32\r\n"                "Host: %s:%d\r\n"
854                     "Host: %s:%d\r\n"                "Proxy-Authorization: Basic %s\r\n"
855                     "Proxy-Authorization: Basic %s\r\n"                "Content-type: application/x-www-form-urlencoded\r\n"
856                     "Content-type: application/x-www-form-urlencoded\r\n"                "Content-length: %d\r\n"
857                     "Content-length: %d\r\n"                "Connection: close\r\n"
858                     "\r\n"                "\r\n"
859                     "keytext=%s"                "keytext=%s"
860                     "\n",                "\r\n";
861                     skip_type_prefix (hostname), port, hostname, port,          reqlen += strlen (fmt) + strlen (proxy.base64_user) + 1;
862            request = safe_alloc (reqlen+1);
863            _snprintf (request, reqlen, fmt,
864                       skip_type_prefix (hostname), port, hostname, port,
865                     proxy.base64_user, enc_octets+9, enc_pubkey);                     proxy.base64_user, enc_octets+9, enc_pubkey);
866      }      }
867      else {      else {
868          _snprintf (request, reqlen-1,          fmt = "POST /pks/add HTTP/1.0\r\n"
869                     "POST /pks/add HTTP/1.0\r\n"                "Referer: \r\n"
870                     "Referer: \r\n"                "User-Agent: WinPT/W32\r\n"
871                     "User-Agent: WinPT/W32\r\n"                "Host: %s:%d\r\n"
872                     "Host: %s:%d\r\n"                "Content-type: application/x-www-form-urlencoded\r\n"
873                     "Content-type: application/x-www-form-urlencoded\r\n"                "Content-length: %d\r\n"
874                     "Content-length: %d\r\n"                "Connection: close\r\n"
875                     "\r\n"                "\r\n"
876                     "keytext=%s"                "keytext=%s"
877                     "\n",                "\r\n";
878                     skip_type_prefix (hostname), port,          reqlen += strlen (fmt)+1;
879            request = safe_alloc (reqlen+1);
880            _snprintf (request, reqlen, fmt,
881                       skip_type_prefix (hostname), port,
882                     enc_octets+9, enc_pubkey);                     enc_octets+9, enc_pubkey);
883      }      }
     free_if_alloc (enc_pubkey);  
884    
885      log_debug ("%s\r\n", request);      free_if_alloc (enc_pubkey);
886        log_debug ("request:\r\n%s\r\n", request);
887      return request;      return request;
888  }  }
889    
890    
891    /* Interface for receiving a public key. */
892  int  int
893  kserver_recvkey_ext (const char *hostname, WORD port, const char *keyid,  kserver_recvkey (const char *hostname, WORD port, const char *keyid,
894                       char **r_key, int *r_keylen)                   char **r_key, size_t *r_keylen)
895  {  {
896      char *request = NULL;      StringBuffer req;
897        const char *reqbuf;
898      int conn_fd;      int conn_fd;
899      int rc, n;      int rc;
900    
901      if (!port)      if (!port)
902          port = HKP_PORT;          port = HKP_PORT;
903      hkp_err = 0; /* reset */          hkp_has_err = 0; /* reset */
904      rc = kserver_connect (hostname, port, &conn_fd);      rc = kserver_connect (hostname, port, &conn_fd);
905      if (rc)      if (rc)
906          goto leave;          goto leave;
907        
     request = new char[300+1];  
     if (!request)  
         BUG (0);  
       
908      if (proxy.host && proxy.user && proxy.proto == PROXY_PROTO_HTTP) {      if (proxy.host && proxy.user && proxy.proto == PROXY_PROTO_HTTP) {
909          _snprintf (request, 300,          req = req + "GET http://" + skip_type_prefix (hostname) +
910              "GET http://%s:%d/pks/lookup?op=get&search=%s HTTP/1.0\r\n"              ":" + port +
911              "Proxy-Authorization: Basic %s\r\n\r\n",              "/pks/lookup?op=get&search=" + keyid + " HTTP/1.0\r\n" +
912              skip_type_prefix (hostname), port, keyid, proxy.base64_user);              "Proxy-Authorization: Basic " + proxy.base64_user + "\r\n" +
913                "Host: " + skip_type_prefix (hostname) + ":" + port + "\r\n"+
914                "Connection: close\r\n"+
915                "\r\n";
916      }      }
917      else if (proxy.host && proxy.proto == PROXY_PROTO_HTTP) {      else if (proxy.host && proxy.proto == PROXY_PROTO_HTTP) {
918          _snprintf (request, 300,          req = req + "GET http://" + skip_type_prefix (hostname) +
919              "GET http://%s:%d/pks/lookup?op=get&search=%s HTTP/1.0\r\n\r\n",              ":" + port + "/pks/lookup?op=get&search=" + keyid +
920              skip_type_prefix (hostname), port, keyid);              " HTTP/1.0\r\n" +
921      }                  "Host: " + skip_type_prefix (hostname) + ":" + port + "\r\n"+
922      else {              "Connection: close\r\n"+
923          _snprintf (request, 300,              "\r\n";
             "GET /pks/lookup?op=get&search=%s HTTP/1.0\r\n\r\n", keyid);  
924      }      }
925        else
926      log_debug ("%s\r\n", request);          req = req + "GET /pks/lookup?op=get&search=" + keyid +    
927                " HTTP/1.0\r\n"+ // FIXME
928                "Host: " + skip_type_prefix (hostname) + ":" + port + "\r\n"+
929                "Connection: close\r\n"+
930                "\r\n";
931            
932      rc = sock_write (conn_fd, request, strlen (request));      log_debug ("req:\r\n%s\r\n", req.getBuffer ());  
933    
934        reqbuf = req.getBuffer ();
935        rc = sock_write (conn_fd, reqbuf, strlen (reqbuf));
936      if (rc == SOCKET_ERROR) {      if (rc == SOCKET_ERROR) {
937          rc = WPTERR_WINSOCK_RECVKEY;          rc = WPTERR_WINSOCK_RECVKEY;
938          goto leave;          goto leave;
939      }      }
940            
941      rc = sock_read_ext (conn_fd, r_key, &n);      rc = sock_read_ext (conn_fd, r_key, r_keylen);
942      if (rc == SOCKET_ERROR) {      if (rc == SOCKET_ERROR) {
943          rc = WPTERR_WINSOCK_RECVKEY;          rc = WPTERR_WINSOCK_RECVKEY;
944          goto leave;          goto leave;
945      }      }
946    
947      if (r_keylen)      log_debug ("response:\r\n%s\r\n", *r_key);
         *r_keylen = n;  
     log_debug ("%s\r\n", *r_key);  
948      rc = check_hkp_response (*r_key, 1);      rc = check_hkp_response (*r_key, 1);
949      if (rc)      if (rc)
950          goto leave;          goto leave;
# Line 879  kserver_recvkey_ext (const char *hostnam Line 953  kserver_recvkey_ext (const char *hostnam
953            
954  leave:  leave:
955      closesocket (conn_fd);      closesocket (conn_fd);
     free_if_alloc (request);  
956      return rc;      return rc;
957  }  }
958    
 /* Interface for receiving a public key. */  
 int  
 kserver_recvkey (const char *hostname, WORD port, const char *keyid,  
                  char *key, int maxkeylen)  
 {  
     char *tmpkey;  
     int rc, nread=0;  
   
     /* XXX: just a wrapper around the new method, replace it  
             soon as possible. */  
     rc = kserver_recvkey_ext (hostname, port, keyid, &tmpkey, &nread);  
     if (rc)  
         return rc;  
   
     if (nread > maxkeylen) {  
         free_if_alloc (tmpkey);  
         return WPTERR_GENERAL;  
     }  
     strcpy (key, tmpkey);  
     free_if_alloc (tmpkey);  
     return 0;  
 }  
   
959    
960  /* Interface to send a public key. */  /* Interface to send a public key. */
961  int  int
962  kserver_sendkey (const char *hostname, WORD port, const char *pubkey, int len )  kserver_sendkey (const char *hostname, WORD port,
963                     const char *pubkey, size_t len)
964  {  {
965      char *request = NULL;      char *request = NULL;
966      char log[2048];      char log[2048] = {0};
967      int conn_fd, n;      int conn_fd, n;
968      int rc;      int rc;
969            
970      hkp_err = 0; /* reset */      hkp_has_err = 0; /* reset */
971      rc = kserver_connect (hostname, port, &conn_fd);      rc = kserver_connect (hostname, port, &conn_fd);
972      if (rc)      if (rc)
973          goto leave;          goto leave;
974            
975      request = kserver_send_request (hostname, port, pubkey, len);      request = kserver_send_request (hostname, port, pubkey, len);
     if (request == NULL) {  
         rc = WPTERR_GENERAL;  
         goto leave;      
     }  
       
976      rc = sock_write (conn_fd, request, strlen (request));      rc = sock_write (conn_fd, request, strlen (request));
977      if (rc == SOCKET_ERROR) {      if (rc == SOCKET_ERROR) {
978          rc = WPTERR_WINSOCK_SENDKEY;          rc = WPTERR_WINSOCK_SENDKEY;
979          goto leave;              goto leave;    
980      }      }
981            
982      rc = sock_read (conn_fd, log, sizeof (log)-1, &n);      rc = sock_read (conn_fd, log, DIM (log)-1, &n);
983      if (rc == SOCKET_ERROR) {      if (rc == SOCKET_ERROR) {
984          rc = WPTERR_WINSOCK_SENDKEY;          rc = WPTERR_WINSOCK_SENDKEY;
985          goto leave;          goto leave;
986      }      }
987    
988      log_debug ("kserver_sendkey:\r\n%s\r\n", log);      log_debug ("kserver_sendkey: read %d bytes\r\n%s\r\n", n, log);
989      rc = check_hkp_response (log, 0);      rc = check_hkp_response (log, 0);
990      if (rc)      if (rc)
991          goto leave;          goto leave;
992            
993      WSASetLastError (0);      WSASetLastError (0);
994        
995  leave:  leave:
996      closesocket (conn_fd);      closesocket (conn_fd);
997      free_if_alloc (request);      free_if_alloc (request);
# Line 961  kserver_search_chkresp (int fd) Line 1007  kserver_search_chkresp (int fd)
1007      int n=0;      int n=0;
1008            
1009      /* parse response 'HTTP/1.0 500 OK' */      /* parse response 'HTTP/1.0 500 OK' */
1010      if (sock_getline (fd, buf, 127, &n))      if (sock_getline (fd, buf, DIM (buf)-1, &n))
1011          return WPTERR_KEYSERVER_NOTFOUND;          return WPTERR_KEYSERVER_NOTFOUND;
1012    
1013      log_debug ("kserver_search_chkpresp: %s\r\n", buf);      log_debug ("kserver_search_chkpresp: %s\r\n", buf);
# Line 982  kserver_search_end (int conn_fd) Line 1028  kserver_search_end (int conn_fd)
1028  }  }
1029    
1030    
1031  /* Begin keyserver search procedure. */  /* Extract the amount of keys from the info record. */
1032    static size_t
1033    count_keys_in_response (char *buf)
1034    {
1035        char *p;
1036        int recno = 0;
1037        size_t n = 0;
1038    
1039        /* info:1:4 */
1040        if (strncmp (buf, "info", 4))
1041            return 0;
1042        p = strtok (buf, ":");
1043        while (p != NULL) {
1044            recno++;
1045            if (recno == 3)
1046                n = atoi (p);
1047            p = strtok (NULL, ":");
1048        }
1049        return n;
1050    }
1051    
1052    
1053    /* Start the keyserver search.
1054       Connect to host @hostname and port @port.
1055       The pattern are given in @pattern.
1056       The socket is returned in @conn_fd and @nkeys contains
1057       the amount of keys which were found. */
1058  int  int
1059  kserver_search_begin (const char *hostname, WORD port,  kserver_search_begin (const char *hostname, WORD port,
1060                        const char *pattern, int *conn_fd)                        const char *pattern, int *conn_fd, size_t *nkeys)
1061  {  {
1062      char *request = NULL;  
1063        StringBuffer req;
1064        const char *reqbuf;
1065      char *enc_patt = NULL;      char *enc_patt = NULL;
1066      int n;      char status[128];
1067      int rc, sock_fd;      int rc, sock_fd;
1068        int nread;
1069            
1070        *conn_fd = 0;
1071    
1072      rc = kserver_connect (hostname, port, &sock_fd);      rc = kserver_connect (hostname, port, &sock_fd);
1073      if (rc) {      if (rc)
         *conn_fd = 0;  
1074          goto leave;          goto leave;
     }  
1075    
1076      enc_patt = URL_encode (pattern, strlen (pattern), NULL);      enc_patt = URL_encode (pattern, strlen (pattern), NULL);
     n = 140 + strlen (enc_patt) + strlen (hostname) + 32 + 2;  
     if (proxy.base64_user)  
         n += strlen (proxy.base64_user) + 1;  
     request = new char[n+1];  
     if (!request)  
         BUG (0);  
       
1077      if (proxy.host && proxy.user && proxy.proto == PROXY_PROTO_HTTP) {      if (proxy.host && proxy.user && proxy.proto == PROXY_PROTO_HTTP) {
1078          _snprintf (request, n,          req = req + "GET http://" + skip_type_prefix (hostname) + ":" + port +
1079              "GET http://%s:%d/pks/lookup?op=index&search=%s HTTP/1.0\r\n"              "/pks/lookup?options=mr&op=index&search=" + enc_patt +
1080              "Proxy-Authorization: Basic %s\r\n\r\n",              " HTTP/1.0\r\n" +
1081              skip_type_prefix (hostname), port, enc_patt, proxy.base64_user);              "Host: " + skip_type_prefix (hostname)  + ":" + port+ "\r\n"+
1082                "Connection: close\r\n" +
1083                "Proxy-Authorization: Basic " + proxy.base64_user + "\r\n\r\n";
1084      }          }    
1085      else if (proxy.host && proxy.proto == PROXY_PROTO_HTTP) {      else if (proxy.host && proxy.proto == PROXY_PROTO_HTTP) {
1086          _snprintf (request, n,          req = req + "GET http://" + skip_type_prefix (hostname) + ":" + port +
1087              "GET http://%s:%d/pks/lookup?op=index&search=%s HTTP/1.0\r\n\r\n",              "/pks/lookup?options=mr&op=index&search=" + enc_patt +
1088              skip_type_prefix (hostname), port, enc_patt);              " HTTP/1.0\r\n"+
1089                "Host: " + skip_type_prefix (hostname)  + ":" + port+ "\r\n"+
1090                "Connection: close\r\n"+
1091                "\r\n";
1092      }      }
1093      else {      else {
1094          _snprintf (request, n,          req = req + "GET /pks/lookup?options=mr&op=index&search=" +
1095                     "GET /pks/lookup?op=index&search=%s HTTP/1.0\r\n\r\n",           enc_patt + " HTTP/1.0\r\n" +
1096                     enc_patt);           "Host: " + skip_type_prefix (hostname)  + ":" + port+ "\r\n"+
1097             "Connection: close\r\n"+
1098             "\r\n";
1099      }      }
1100            
1101      log_debug ("kserver_search_begin:\r\n%s\r\n", request);      log_debug ("kserver_search_begin:\r\n%s\r\n", req.getBuffer ());
1102            reqbuf = req.getBuffer ();
1103      if (sock_write (sock_fd, request, strlen (request)) == SOCKET_ERROR) {      if (sock_write (sock_fd, reqbuf, strlen (reqbuf)) == SOCKET_ERROR) {
1104          rc = WPTERR_GENERAL;          rc = WPTERR_GENERAL;
1105          goto leave;          goto leave;
1106      }      }
# Line 1034  kserver_search_begin (const char *hostna Line 1109  kserver_search_begin (const char *hostna
1109      if (rc) {      if (rc) {
1110          closesocket (sock_fd);          closesocket (sock_fd);
1111          sock_fd = 0;          sock_fd = 0;
1112            goto leave;
1113        }
1114    
1115        /* Skip all lines until we reach the "info:" record. */
1116        for (;;) {
1117            if (sock_getline (sock_fd, status, DIM (status)-1, &nread)) {  
1118                log_debug ("kserver_search_begin: retrieving status line failed.\r\n");
1119                closesocket (sock_fd);
1120                sock_fd = 0;
1121                rc = WPTERR_GENERAL;
1122                break;
1123            }
1124            if (!strncmp (status, "info:", 5))
1125                break;
1126      }      }
1127    
1128        if (!rc)
1129            *nkeys = count_keys_in_response (status);
1130      *conn_fd = sock_fd;      *conn_fd = sock_fd;
1131            
1132  leave:  leave:
     free_if_alloc (request);  
1133      free_if_alloc (enc_patt);      free_if_alloc (enc_patt);
1134      return rc;      return rc;
1135  }  }
1136    
1137    
1138    /* Parse a single pub record returned by the keyserver. */
1139    static void
1140  /* Convert an iso date @iso_date (YYYY-MM-DD) into the locale  parse_pub_record (keyserver_key_s *key, char *buf)
    representation and store it into @loc_date.  
    Return value: 0 on success. */  
 static int  
 parse_iso_date (const char *iso_date, char *loc_date, size_t loclen)  
1141  {  {
1142      SYSTEMTIME st;      enum pub_rec_t {ID=1, KEYID, ALGO, SIZE, CREATE, EXPIRE};
1143      char buf[16] = {0}, *p;      char *p;
1144      int pos=0;      int recno = 0;
1145        int off = 0;
1146    
1147      strncpy (buf, iso_date, sizeof (buf)-1);      /* pub:{BF3DF9B4, ED4681C9BF3DF9B4, FPR}:17:1024:925411133:: */
1148      p = strtok (buf, "-");      p = strtok (buf, ":");
1149      while (p != NULL) {      while (p != NULL) {
1150          switch (pos) {          recno++;
1151          case 0: st.wYear  = (WORD)atoi (p); pos++; break;          switch (recno) {
1152          case 1: st.wMonth = (WORD)atoi (p); pos++; break;          case ID:
1153          case 2: st.wDay   = (WORD)atoi (p); pos++; break;              break;
1154          default: break;  
1155            case KEYID:
1156                /* If for any reason the returned record actually contains
1157                   a fingerprint instead of a key ID, we truncate the fpr. */
1158                off = strlen (p) == 40? 32 : 0;
1159                free_if_alloc (key->keyid);
1160                key->keyid = m_strdup (p+off);
1161                break;
1162    
1163            case ALGO:
1164                key->algo = atoi (p);
1165                break;
1166                
1167            case SIZE:
1168                key->bits = atoi (p);
1169                break;
1170    
1171            case CREATE:
1172                key->creation = strtoul (p, NULL, 10);
1173                break;
1174    
1175            case EXPIRE:
1176                key->expires = strtoul (p, NULL, 10);
1177                break;
1178          }          }
1179          p = strtok (NULL, "-");          p = strtok (NULL, ":");
1180      }      }
     if (pos != 3)  
         return -1;  
       
     if (!GetDateFormat (LOCALE_USER_DEFAULT, DATE_SHORTDATE, &st,  
                         NULL, loc_date, loclen))  
         return -1;  
     return 0;  
1181  }  }
1182    
1183    
1184  int  /* Parse a single user id returned by the keyserver. */
1185  kserver_search_next (int fd, keyserver_key *key)  static void
1186    parse_uid_record (keyserver_key_s *key, char *buf)
1187  {  {
1188      char buf[1024], *p;      enum uid_rec_t {ID=1, UID, CREATE, EXPIRE};
1189      int uidlen, nbytes, pos = 0;      keyserver_uid_s *u, *n;
1190        char *p, *raw;
1191        int recno = 0;
1192    
1193        /* uid:Timo Schulz <[email protected]>:1138440360:: */
1194        u = new keyserver_uid_s;
1195        memset (u, 0, sizeof *u);
1196    
1197      log_debug ("keyserver_search_next:\r\n");      p = strtok (buf, ":");
1198            while (p != NULL) {
1199      if (sock_getline (fd, buf, sizeof (buf) - 1, &nbytes))          recno++;
         return WPTERR_GENERAL;  
1200    
1201      /* XXX: use maschine readable option. */          switch (recno) {
1202      log_debug ("%s\r\n", buf);          case ID:
1203                    break;
     if (!strncmp (buf, "pub", 3)) {  
         int revoked = strstr (buf, "KEY REVOKED") != NULL? 1 : 0;  
         key->bits = atol (buf+3);  
         p = strchr (buf, '>');  
         if (!p)  
             goto fail;  
         pos = p - buf + 1;  
         memcpy (key->keyid, buf + pos, 8);  
         key->keyid[8] = '\0';  
         p = strstr (buf, "</a>");  
         if (!p)  
             goto fail;  
         pos = p - buf + 5;  
         memcpy (key->date, buf + pos, 10);  
         key->date[10] = '\0';  
         parse_iso_date (key->date, key->date, sizeof (key->date)-1);  
         if (revoked) {  
             strcpy (key->uid, "KEY REVOKED: not checked");  
             return 0;  
         }  
         pos += 10;  
         p = buf + pos + 1;  
         while (p && *p != '>')  
             p++;  
         p++;  
         uidlen = strlen (p) - 10;  
         if (!strstr (p, "&lt;") && !strstr (p, "&gt;")) {  
             pos=0;  
             while (p && *p && pos < sizeof (key->uid)-1) {  
                 if (*p == '<')  
                     break;  
                 key->uid[pos++] = *p++;  
             }  
             key->uid[pos] ='\0';  
             return 0;  
         }  
1204    
1205          if (uidlen > sizeof (key->uid)-1)          case UID:
1206              uidlen = sizeof (key->uid)-1;              unhexify_buffer (p, &raw);
1207          memcpy (key->uid, p, uidlen);              u->uid = utf8_to_native (raw);
1208          key->uid[uidlen] = '\0';              free_if_alloc (raw);
1209          strcat (key->uid, ">");              break;
         p = strchr (key->uid, '&');  
         if (p) {  
             key->uid[(p-key->uid)] = '<';  
             memmove (key->uid+(p-key->uid)+1, key->uid+(p-key->uid)+4,  
                      strlen (key->uid)-3);  
         }  
         return 0;  
     }  
1210    
1211  fail:          case CREATE:
1212      key->bits = 0;              u->creation = strtoul (p, NULL, 10);
1213      memset (key, 0, sizeof *key);              break;
     return 0;  
 }  
1214    
1215            case EXPIRE:
1216                u->expires = strtoul (p, NULL, 10);
1217                break;
1218            }
1219    
1220  /* Release mbmers in the proxy context @ctx. */          p = strtok (NULL, ":");
1221  void      }
1222  kserver_proxy_release (keyserver_proxy_t ctx)      if (!key->uids)
1223  {          key->uids = u;
1224      free_if_alloc (ctx->host);      else {
1225      free_if_alloc (ctx->pass);          for (n = key->uids; n->next; n=n->next)
1226      free_if_alloc (ctx->user);              ;
1227      ctx->port = ctx->proto = 0;          n->next = u;
1228        }
1229  }  }
1230    
1231    
1232  /* Spawn a process given by @cmdl. */  /* Peek the next 3 bytes to check if the next line
1233       would be a new "pub" record. In this case, return
1234       -1 as an EOF indication, 0 otherwise. */
1235  static int  static int
1236  spawn_application (char *cmdl)  is_key_eof (int fd)
1237  {  {
1238      STARTUPINFO si;      char buf[64];
1239      PROCESS_INFORMATION pi;      int n;
1240      int rc = 0;  
1241        n = recv (fd, buf, 3, MSG_PEEK);
1242      memset (&si, 0, sizeof (si));      if (n < 3 || strncmp (buf, "pub", 3))
1243      si.cb = sizeof (si);          return 0;
1244      si.dwFlags = STARTF_USESHOWWINDOW;      return -1;
     si.wShowWindow = SW_HIDE;  
     memset (&pi, 0, sizeof (pi));  
   
     if (!CreateProcess (NULL, cmdl, NULL, NULL, FALSE, 0,  
                         NULL, NULL, &si, &pi)) {  
         log_box ("Keyserver Plugin", MB_ERR, "Could not spawn helper process");  
         rc = -1;  
     }  
   
     CloseHandle (pi.hThread);  
     WaitForSingleObject (pi.hProcess, INFINITE);  
     CloseHandle (pi.hProcess);  
     return rc;  
1245  }  }
1246    
1247    
1248  /* Receive an key via LDAP from host @host with the keyid @keyid.  /* Return the next key from the search response. */
    @key contains the key on success. */  
1249  int  int
1250  ldap_recvkey (const char *host, const char *keyid, char *key, int maxkeylen)  kserver_search_next (int fd, keyserver_key_s **r_key)
1251  {      {
1252      FILE *fp;      keyserver_uid_s *uid, *u = NULL;
1253      const char *s;      keyserver_key_s *key;
1254      char *ksprg = NULL, *p = NULL, *sep;      char buf[512];
1255      char inf[256], outf[256], buf[512];      int n = 0;
1256      DWORD n;      long max = 0;
     int start_key = 0, failed = 0;  
     int rc = 0;  
   
     p = get_gnupg_prog ();  
     n = strlen (p) + 1 + 128;  
     ksprg = new char[n+1];  
     if (!ksprg)  
         BUG (0);  
     sep = strrchr (p, '\\');  
     if (sep != NULL)  
         p[(sep-p)] = 0;  
   
     _snprintf (ksprg, n, "%s\\gpgkeys_ldap.exe", p);  
     free_if_alloc (p);  
     if (file_exist_check (ksprg)) {  
         log_box ("LDAP Keyserver Plugin", MB_ERR,  
                  "%s: could not find LDAP keyserver module!", ksprg);  
         rc = -1;  
         goto leave;  
     }  
     get_temp_name (outf, sizeof (outf)-1, keyid);  
     get_temp_name (inf, sizeof (inf)-1, NULL);  
     fp = fopen (inf, "w+b");  
     if (!fp) {  
         log_box ("LDAP Keyserver Plugin", MB_ERR, "%s: %s", inf,  
                  winpt_strerror (WPTERR_FILE_OPEN));  
         rc = -1;  
         goto leave;  
     }  
     fprintf (fp,  
         "VERSION 1\n"  
         "PROGRAM 1.4.3-cvs\n"  
         "SCHEME ldap\n"  
         "HOST %s\n"  
         "COMMAND GET\n"  
         "\n"  
         "%s\n",  
         host? skip_type_prefix (host): "64.94.85.200", keyid);  
     fclose (fp);  
1257    
1258      p = new char[strlen (ksprg) + strlen (inf) + strlen (outf) + 32];      log_debug ("keyserver_search_next:\r\n");
1259      if (!p)      *r_key = NULL;
         BUG (NULL);  
     sprintf (p, "%s -o %s %s", ksprg, outf, inf);  
     if (spawn_application (p)) {  
         rc = -1;  
         goto leave;  
     }  
1260    
1261      fp = fopen (outf, "rb");      key = new keyserver_key_s;
1262      if (!fp) {      memset (key, 0, sizeof *key);
1263          log_box ("LDAP Keyserver Plugin", MB_ERR, "%s: %s", outf,      for (;;) {
1264                   winpt_strerror (WPTERR_FILE_OPEN));          if (sock_getline (fd, buf, DIM (buf)-1, &n))
         rc = -1;  
         goto leave;  
     }  
     memset (key, 0, maxkeylen);  
     while (!feof (fp)) {  
         s = fgets (buf, sizeof (buf)-1, fp);  
         if (!s)  
1265              break;              break;
1266          if (strstr (s, "KEY") && strstr (s, "FAILED")) {          /*log_debug ("record: '%s'\r\n", buf); */
1267              failed = 1;          if (!strncmp (buf, "pub", 3))
1268                parse_pub_record (key, buf);
1269            else
1270                parse_uid_record (key, buf);
1271            if (is_key_eof (fd))
1272              break;              break;
1273        }
1274    
1275        /* the uid with the newest self sig is used as the
1276           primary user id. */
1277        for (uid = key->uids; uid; uid = uid->next) {
1278            if (uid->creation > max) {
1279                max = uid->creation;
1280                u = uid;
1281          }          }
         if (!start_key && strstr (s, "KEY") && strstr (s, "BEGIN")) {  
             start_key = 1;  
             continue;  
         }        
         if (!start_key)  
             continue;  
         strcat (key, buf);  
         maxkeylen -= strlen (buf);  
         if (maxkeylen < 0 || (strstr (s, "KEY") && strstr (s, "END")))  
             break;  
1282      }      }
     fclose (fp);  
1283    
1284  leave:      key->main_uid = u? u : key->uids;
1285      if (failed || !strlen (key))      *r_key = key;
1286          rc = WPTERR_WINSOCK_RECVKEY;      return 0;
     DeleteFile (inf);  
     DeleteFile (outf);  
     free_if_alloc (p);  
     free_if_alloc (ksprg);  
     return rc;  
1287  }  }
1288    
1289    
1290  /* Receive an key via FINGER from host @host with the user @user.  /* Release the keyserver key @key and all its elements. */
1291     On success @key contains the key. */  void
1292  int  kserver_release_key (keyserver_key_s *key)
 finger_recvkey (const char *host, const char *user, char *key, int maxkeylen)  
1293  {  {
1294      char buf[128];      keyserver_uid_s *u;
     int fd, nread;  
     int start_key = 0;  
     int rc=0;  
1295    
1296      rc = kserver_connect (host, FINGER_PORT, &fd);      while (key->uids) {
1297      if (rc)          u = key->uids->next;
1298          return rc;          free_if_alloc (key->uids->uid);
1299            free_if_alloc (key->uids);
1300            key->uids = u;
1301        }
1302        free_if_alloc (key->keyid);
1303        free_if_alloc (key);
1304    }
1305    
     sock_write (fd, user, strlen (user));  
     sock_write (fd, "\r\n", 2);  
1306    
1307      memset (key, 0, maxkeylen);  /* Release mbmers in the proxy context @ctx. */
1308      while (maxkeylen > 0) {  void
1309          if (sock_getline (fd, buf, sizeof (buf), &nread))  kserver_proxy_release (keyserver_proxy_t ctx)
1310              break;  {
1311          strcat (buf, "\n");      free_if_alloc (ctx->host);
1312          if (strstr (buf, "BEGIN PGP PUBLIC KEY BLOCK")) {      free_if_alloc (ctx->pass);
1313              strcat (key, buf);      free_if_alloc (ctx->user);
1314              start_key = 1;      ctx->port = ctx->proto = 0;
             maxkeylen -= nread;  
         }  
         else if (strstr (buf, "END PGP PUBLIC KEY BLOCK" ) && start_key) {  
             strcat (key, buf);  
             start_key--;  
             maxkeylen -= nread;  
             break;  
         }  
         else if (start_key) {  
             strcat (key, buf);  
             maxkeylen -= nread;  
         }  
     }  
     closesocket (fd);  
     if (start_key != 0)  
         rc = WPTERR_WINSOCK_RECVKEY;  
     return rc;  
1315  }  }
1316    
1317    
1318  /* Check if the given name @name is a valid hostname. */  /* Check if the given name @name is a valid inernet address
1319       which means an dotted IP or a valid DNS name.
1320       Return value: 0 on success. */
1321  int  int
1322  check_IP_or_hostname (const char *name)  check_inet_address (const char *addr)
1323  {  {
1324      const char *not_allowed = "=!�$%&@#*~\\/}][{<>|,;:'";      const char *not_allowed = "=!�$%&@#*~\\/}][{<>|,;:'";
     size_t i, j;  
1325    
1326      for (i=0; i < strlen (name); i++) {      for (size_t i=0; i < strlen (addr); i++) {
1327          for (j =0; j < strlen (not_allowed); j++) {          if (strchr (not_allowed, addr[i]))
1328              if (name[i] == not_allowed[j])              return -1;
                 return -1;  
         }  
1329      }      }
1330      return 0;      return 0;
1331  }  }
1332    
1333    
1334    /* Split the URL @r_keyserver into the host and the port
1335       part if possible. */
1336    gpgme_error_t
1337    parse_keyserver_url (char **r_keyserver, unsigned short *r_port)
1338    {
1339        char *p;
1340        char *url = *r_keyserver;
1341        int off;
1342    
1343        /* no port is given so use the default port. */
1344        p = strrchr (url, ':');
1345        if (p == strchr (url, ':')) {
1346            *r_port = HKP_PORT;
1347            return 0;
1348        }
1349    
1350        if (url[(p-url)-1] == '/') /* remove / in .de/:11371 */
1351            off = 1;
1352        else
1353            off = 0;
1354    
1355        *r_keyserver = substr (url, 0, (p-url)-off);
1356        *r_port = atoi (url+(p-url)+1);
1357        free_if_alloc (url);
1358        return 0;
1359    }
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  Added in v.340
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