xref: /dragonfly/contrib/cvs-1.12/src/client.c (revision 86d7f5d305c6adaa56ff4582ece9859d73106103)
1 /* CVS client-related stuff.
2 
3    This program is free software; you can redistribute it and/or modify
4    it under the terms of the GNU General Public License as published by
5    the Free Software Foundation; either version 2, or (at your option)
6    any later version.
7 
8    This program is distributed in the hope that it will be useful,
9    but WITHOUT ANY WARRANTY; without even the implied warranty of
10    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
11    GNU General Public License for more details.  */
12 
13 #ifdef HAVE_CONFIG_H
14 # include "config.h"
15 #endif /* HAVE_CONFIG_H */
16 
17 #include "cvs.h"
18 #include "getline.h"
19 #include "edit.h"
20 #include "buffer.h"
21 #include "save-cwd.h"
22 
23 #ifdef CLIENT_SUPPORT
24 
25 # include "log-buffer.h"
26 # include "md5.h"
27 
28 #include "socket-client.h"
29 #include "rsh-client.h"
30 
31 # ifdef HAVE_GSSAPI
32 #   include "gssapi-client.h"
33 # endif
34 
35 # ifdef HAVE_KERBEROS
36 #   include "kerberos4-client.h"
37 # endif
38 
39 
40 
41 /* Keep track of any paths we are sending for Max-dotdot so that we can verify
42  * that uplevel paths coming back form the server are valid.
43  *
44  * FIXME: The correct way to do this is probably provide some sort of virtual
45  * path map on the client side.  This would be generic enough to be applied to
46  * absolute paths supplied by the user too.
47  */
48 static List *uppaths;
49 
50 
51 
52 static void add_prune_candidate (const char *);
53 
54 /* All the commands.  */
55 int add (int argc, char **argv);
56 int admin (int argc, char **argv);
57 int checkout (int argc, char **argv);
58 int commit (int argc, char **argv);
59 int diff (int argc, char **argv);
60 int history (int argc, char **argv);
61 int import (int argc, char **argv);
62 int cvslog (int argc, char **argv);
63 int patch (int argc, char **argv);
64 int release (int argc, char **argv);
65 int cvsremove (int argc, char **argv);
66 int rtag (int argc, char **argv);
67 int status (int argc, char **argv);
68 int tag (int argc, char **argv);
69 int update (int argc, char **argv);
70 
71 static size_t try_read_from_server (char *, size_t);
72 
73 static void auth_server (cvsroot_t *, struct buffer *, struct buffer *,
74                                int, int, struct hostent *);
75 
76 
77 
78 /* This is the referrer who referred us to a primary, or write server, using
79  * the "Redirect" request.
80  */
81 static cvsroot_t *client_referrer;
82 
83 /* We need to keep track of the list of directories we've sent to the
84    server.  This list, along with the current CVSROOT, will help us
85    decide which command-line arguments to send.  */
86 List *dirs_sent_to_server;
87 static int
is_arg_a_parent_or_listed_dir(Node * n,void * d)88 is_arg_a_parent_or_listed_dir (Node *n, void *d)
89 {
90     char *directory = n->key; /* name of the dir sent to server */
91     char *this_argv_elem = d; /* this argv element */
92 
93     /* Say we should send this argument if the argument matches the
94        beginning of a directory name sent to the server.  This way,
95        the server will know to start at the top of that directory
96        hierarchy and descend. */
97 
98     if (!strncmp (directory, this_argv_elem, strlen (this_argv_elem)))
99           return 1;
100 
101     return 0;
102 }
103 
104 
105 
106 /* Return nonzero if this argument should not be sent to the
107    server. */
108 static int
arg_should_not_be_sent_to_server(char * arg)109 arg_should_not_be_sent_to_server (char *arg)
110 {
111     /* Decide if we should send this directory name to the server.  We
112        should always send argv[i] if:
113 
114        1) the list of directories sent to the server is empty (as it
115        will be for checkout, etc.).
116 
117        2) the argument is "."
118 
119        3) the argument is a file in the cwd and the cwd is checked out
120        from the current root
121 
122        4) the argument lies within one of the paths in
123        dirs_sent_to_server.
124 
125        */
126 
127     if (list_isempty (dirs_sent_to_server))
128           return 0;           /* always send it */
129 
130     if (!strcmp (arg, "."))
131           return 0;           /* always send it */
132 
133     /* We should send arg if it is one of the directories sent to the
134        server or the parent of one; this tells the server to descend
135        the hierarchy starting at this level. */
136     if (isdir (arg))
137     {
138           if (walklist (dirs_sent_to_server, is_arg_a_parent_or_listed_dir, arg))
139               return 0;
140 
141           /* If arg wasn't a parent, we don't know anything about it (we
142              would have seen something related to it during the
143              send_files phase).  Don't send it.  */
144           return 1;
145     }
146 
147     /* Try to decide whether we should send arg to the server by
148        checking the contents of the corresponding CVSADM directory. */
149     {
150           char *t, *root_string;
151           cvsroot_t *this_root = NULL;
152 
153           /* Calculate "dirname arg" */
154           for (t = arg + strlen (arg) - 1; t >= arg; t--)
155           {
156               if (ISSLASH (*t))
157                     break;
158           }
159 
160           /* Now we're either poiting to the beginning of the
161              string, or we found a path separator. */
162           if (t >= arg)
163           {
164               /* Found a path separator.  */
165               char c = *t;
166               *t = '\0';
167 
168               /* First, check to see if we sent this directory to the
169                server, because it takes less time than actually
170                opening the stuff in the CVSADM directory.  */
171               if (walklist (dirs_sent_to_server, is_arg_a_parent_or_listed_dir,
172                                 arg))
173               {
174                     *t = c;             /* make sure to un-truncate the arg */
175                     return 0;
176               }
177 
178               /* Since we didn't find it in the list, check the CVSADM
179                files on disk.  */
180               this_root = Name_Root (arg, NULL);
181               root_string = this_root->original;
182               *t = c;
183           }
184           else
185           {
186               /* We're at the beginning of the string.  Look at the
187                CVSADM files in cwd.  */
188               if (CVSroot_cmdline)
189                     root_string = CVSroot_cmdline;
190               else
191               {
192                     this_root = Name_Root (NULL, NULL);
193                     root_string = this_root->original;
194               }
195           }
196 
197           /* Now check the value for root. */
198           if (root_string && current_parsed_root
199               && strcmp (root_string, original_parsed_root->original))
200           {
201               /* Don't send this, since the CVSROOTs don't match. */
202               return 1;
203           }
204     }
205 
206     /* OK, let's send it. */
207     return 0;
208 }
209 #endif /* CLIENT_SUPPORT */
210 
211 
212 
213 #if defined(CLIENT_SUPPORT) || defined(SERVER_SUPPORT)
214 
215 /* Shared with server.  */
216 
217 /*
218  * Return a malloc'd, '\0'-terminated string
219  * corresponding to the mode in SB.
220  */
221 char *
mode_to_string(mode_t mode)222 mode_to_string (mode_t mode)
223 {
224     char u[4], g[4], o[4];
225     int i;
226 
227     i = 0;
228     if (mode & S_IRUSR) u[i++] = 'r';
229     if (mode & S_IWUSR) u[i++] = 'w';
230     if (mode & S_IXUSR) u[i++] = 'x';
231     u[i] = '\0';
232 
233     i = 0;
234     if (mode & S_IRGRP) g[i++] = 'r';
235     if (mode & S_IWGRP) g[i++] = 'w';
236     if (mode & S_IXGRP) g[i++] = 'x';
237     g[i] = '\0';
238 
239     i = 0;
240     if (mode & S_IROTH) o[i++] = 'r';
241     if (mode & S_IWOTH) o[i++] = 'w';
242     if (mode & S_IXOTH) o[i++] = 'x';
243     o[i] = '\0';
244 
245     return Xasprintf ("u=%s,g=%s,o=%s", u, g, o);
246 }
247 
248 
249 
250 /*
251  * Change mode of FILENAME to MODE_STRING.
252  * Returns 0 for success or errno code.
253  * If RESPECT_UMASK is set, then honor the umask.
254  */
255 int
change_mode(const char * filename,const char * mode_string,int respect_umask)256 change_mode (const char *filename, const char *mode_string, int respect_umask)
257 {
258 #ifdef CHMOD_BROKEN
259     char *p;
260     int writeable = 0;
261 
262     /* We can only distinguish between
263          1) readable
264          2) writeable
265          3) Picasso's "Blue Period"
266        We handle the first two. */
267     p = mode_string;
268     while (*p != '\0')
269     {
270           if ((p[0] == 'u' || p[0] == 'g' || p[0] == 'o') && p[1] == '=')
271           {
272               char *q = p + 2;
273               while (*q != ',' && *q != '\0')
274               {
275                     if (*q == 'w')
276                         writeable = 1;
277                     ++q;
278               }
279           }
280           /* Skip to the next field.  */
281           while (*p != ',' && *p != '\0')
282               ++p;
283           if (*p == ',')
284               ++p;
285     }
286 
287     /* xchmod honors the umask for us.  In the !respect_umask case, we
288        don't try to cope with it (probably to handle that well, the server
289        needs to deal with modes in data structures, rather than via the
290        modes in temporary files).  */
291     xchmod (filename, writeable);
292           return 0;
293 
294 #else /* ! CHMOD_BROKEN */
295 
296     const char *p;
297     mode_t mode = 0;
298     mode_t oumask;
299 
300     p = mode_string;
301     while (*p != '\0')
302     {
303           if ((p[0] == 'u' || p[0] == 'g' || p[0] == 'o') && p[1] == '=')
304           {
305               int can_read = 0, can_write = 0, can_execute = 0;
306               const char *q = p + 2;
307               while (*q != ',' && *q != '\0')
308               {
309                     if (*q == 'r')
310                         can_read = 1;
311                     else if (*q == 'w')
312                         can_write = 1;
313                     else if (*q == 'x')
314                         can_execute = 1;
315                     ++q;
316               }
317               if (p[0] == 'u')
318               {
319                     if (can_read)
320                         mode |= S_IRUSR;
321                     if (can_write)
322                         mode |= S_IWUSR;
323                     if (can_execute)
324                         mode |= S_IXUSR;
325               }
326               else if (p[0] == 'g')
327               {
328                     if (can_read)
329                         mode |= S_IRGRP;
330                     if (can_write)
331                         mode |= S_IWGRP;
332                     if (can_execute)
333                         mode |= S_IXGRP;
334               }
335               else if (p[0] == 'o')
336               {
337                     if (can_read)
338                         mode |= S_IROTH;
339                     if (can_write)
340                         mode |= S_IWOTH;
341                     if (can_execute)
342                         mode |= S_IXOTH;
343               }
344           }
345           /* Skip to the next field.  */
346           while (*p != ',' && *p != '\0')
347               ++p;
348           if (*p == ',')
349               ++p;
350     }
351 
352     if (respect_umask)
353     {
354           oumask = umask (0);
355           (void) umask (oumask);
356           mode &= ~oumask;
357     }
358 
359     if (chmod (filename, mode) < 0)
360           return errno;
361     return 0;
362 #endif /* ! CHMOD_BROKEN */
363 }
364 #endif /* CLIENT_SUPPORT or SERVER_SUPPORT */
365 
366 
367 
368 #ifdef CLIENT_SUPPORT
369 int client_prune_dirs;
370 
371 static List *ignlist = NULL;
372 
373 /* Buffer to write to the server.  */
374 static struct buffer *global_to_server;
375 
376 /* Buffer used to read from the server.  */
377 static struct buffer *global_from_server;
378 
379 
380 
381 /*
382  * Read a line from the server.  Result does not include the terminating \n.
383  *
384  * Space for the result is malloc'd and should be freed by the caller.
385  *
386  * Returns number of bytes read.
387  */
388 static size_t
read_line_via(struct buffer * via_from_buffer,struct buffer * via_to_buffer,char ** resultp)389 read_line_via (struct buffer *via_from_buffer, struct buffer *via_to_buffer,
390                char **resultp)
391 {
392     int status;
393     char *result;
394     size_t len;
395 
396     status = buf_flush (via_to_buffer, 1);
397     if (status != 0)
398           error (1, status, "writing to server");
399 
400     status = buf_read_line (via_from_buffer, &result, &len);
401     if (status != 0)
402     {
403           if (status == -1)
404               error (1, 0,
405                    "end of file from server (consult above messages if any)");
406           else if (status == -2)
407               error (1, 0, "out of memory");
408           else
409               error (1, status, "reading from server");
410     }
411 
412     if (resultp)
413           *resultp = result;
414     else
415           free (result);
416 
417     return len;
418 }
419 
420 
421 
422 static size_t
read_line(char ** resultp)423 read_line (char **resultp)
424 {
425   return read_line_via (global_from_server, global_to_server, resultp);
426 }
427 #endif /* CLIENT_SUPPORT */
428 
429 
430 
431 #if defined(CLIENT_SUPPORT) || defined(SERVER_SUPPORT)
432 /*
433  * Zero if compression isn't supported or requested; non-zero to indicate
434  * a compression level to request from gzip.
435  */
436 int gzip_level;
437 
438 /*
439  * Level of compression to use when running gzip on a single file.
440  */
441 int file_gzip_level;
442 
443 #endif /* CLIENT_SUPPORT or SERVER_SUPPORT */
444 
445 #ifdef CLIENT_SUPPORT
446 
447 /* Whether the server asked us to force compression.  */
448 static bool force_gzip;
449 
450 /*
451  * The Repository for the top level of this command (not necessarily
452  * the CVSROOT, just the current directory at the time we do it).
453  */
454 static char *toplevel_repos;
455 
456 /* Working directory when we first started.  Note: we could speed things
457    up on some systems by using savecwd.h here instead of just always
458    storing a name.  */
459 char *toplevel_wd;
460 
461 
462 
463 static void
handle_ok(char * args,size_t len)464 handle_ok (char *args, size_t len)
465 {
466     return;
467 }
468 
469 
470 
471 static void
handle_error(char * args,size_t len)472 handle_error (char *args, size_t len)
473 {
474     int something_printed;
475 
476     /*
477      * First there is a symbolic error code followed by a space, which
478      * we ignore.
479      */
480     char *p = strchr (args, ' ');
481     if (!p)
482     {
483           error (0, 0, "invalid data from cvs server");
484           return;
485     }
486     ++p;
487 
488     /* Next we print the text of the message from the server.  We
489        probably should be prefixing it with "server error" or some
490        such, because if it is something like "Out of memory", the
491        current behavior doesn't say which machine is out of
492        memory.  */
493 
494     len -= p - args;
495     something_printed = 0;
496     for (; len > 0; --len)
497     {
498           something_printed = 1;
499           putc (*p++, stderr);
500     }
501     if (something_printed)
502           putc ('\n', stderr);
503 }
504 
505 
506 
507 static void
handle_valid_requests(char * args,size_t len)508 handle_valid_requests (char *args, size_t len)
509 {
510     char *p = args;
511     char *q;
512     struct request *rq;
513     do
514     {
515           q = strchr (p, ' ');
516           if (q)
517               *q++ = '\0';
518           for (rq = requests; rq->name; ++rq)
519           {
520               if (!strcmp (rq->name, p))
521                     break;
522           }
523           if (!rq->name)
524               /*
525                * It is a request we have never heard of (and thus never
526                * will want to use).  So don't worry about it.
527                */
528               ;
529           else
530           {
531               if (rq->flags & RQ_ENABLEME)
532               {
533                     /*
534                      * Server wants to know if we have this, to enable the
535                      * feature.
536                      */
537                     send_to_server (rq->name, 0);
538                 send_to_server ("\012", 0);
539               }
540               else
541                     rq->flags |= RQ_SUPPORTED;
542           }
543           p = q;
544     } while (q);
545     for (rq = requests; rq->name; ++rq)
546     {
547           if ((rq->flags & RQ_SUPPORTED)
548               || (rq->flags & RQ_ENABLEME))
549               continue;
550           if (rq->flags & RQ_ESSENTIAL)
551               error (1, 0, "request `%s' not supported by server", rq->name);
552     }
553 }
554 
555 static void
handle_force_gzip(char * args,size_t len)556 handle_force_gzip (char *args, size_t len)
557 {
558     force_gzip = true;
559 }
560 
561 
562 
563 /* Has the server told us its name since the last redirect?
564  */
565 static bool referred_since_last_redirect = false;
566 static bool free_client_referrer = false;
567 
568 
569 
570 static void
handle_referrer(char * args,size_t len)571 handle_referrer (char *args, size_t len)
572 {
573     TRACE (TRACE_FUNCTION, "handle_referrer (%s)", args);
574     client_referrer = parse_cvsroot (args);
575     referred_since_last_redirect = true;
576     free_client_referrer = true;
577 }
578 
579 
580 
581 /* Redirect our connection to a different server and start over.
582  *
583  * GLOBALS
584  *   current_parsed_root      The CVSROOT being accessed.
585  *   client_referrer                    Used to track the server which referred us to a
586  *                                      new server.  Can be supplied by the referring
587  *                                      server.
588  *   free_client_referrer     Used to track whether the client_referrer needs
589  *                                      to be freed before changing it.
590  *   referred_since_last_redirect
591  *                                      Tracks whether the currect server told us how
592  *                                      to refer to it.
593  *
594  * OUTPUTS
595  *   current_parsed_root      Updated to point to the new CVSROOT.
596  *   referred_since_last_redirect
597  *                                      Always cleared.
598  *   client_referrer                    Set automatically to current_parsed_root if
599  *                                      the current server did not give us a name to
600  *                                      refer to it by.
601  *   free_client_referrer     Reset when necessary.
602  */
603 static void
handle_redirect(char * args,size_t len)604 handle_redirect (char *args, size_t len)
605 {
606     static List *redirects = NULL;
607 
608     TRACE (TRACE_FUNCTION, "handle_redirect (%s)", args);
609 
610     if (redirects && findnode (redirects, args))
611           error (1, 0, "`Redirect' loop detected.  Server misconfiguration?");
612     else
613     {
614           if (!redirects) redirects = getlist();
615           push_string (redirects, args);
616     }
617 
618     if (referred_since_last_redirect)
619           referred_since_last_redirect = false;
620     else
621     {
622           if (free_client_referrer) free (client_referrer);
623           client_referrer = current_parsed_root;
624           free_client_referrer = false;
625     }
626 
627     current_parsed_root = parse_cvsroot (args);
628 
629     /* We deliberately do not set ORIGINAL_PARSED_ROOT here.
630      * ORIGINAL_PARSED_ROOT is used by the client to determine the current root
631      * being processed for the purpose of looking it up in lists and such, even
632      * after a redirect.
633      *
634      * FIXME
635      *   CURRENT_PARSED_ROOT should not be reset by this function.  Redirects
636      *   should be "added" to it.  The REDIRECTS list should also be replaced
637      *   by this new CURRENT_PARSED_ROOT element.  This way, if, for instance,
638      *   a multi-root workspace had two secondaries pointing to the same
639      *   primary, then the client would not report a looping error.
640      *
641      *   There is also a potential memory leak above and storing new roots as
642      *   part of the original could help avoid it fairly elegantly.
643      */
644     if (!current_parsed_root)
645           error (1, 0, "Server requested redirect to invalid root: `%s'",
646                  args);
647 }
648 
649 
650 
651 /*
652  * This is a proc for walklist().  It inverts the error return premise of
653  * walklist.
654  *
655  * RETURNS
656  *   True       If this path is prefixed by one of the paths in walklist and
657  *              does not step above the prefix path.
658  *   False      Otherwise.
659  */
660 static
path_list_prefixed(Node * p,void * closure)661 int path_list_prefixed (Node *p, void *closure)
662 {
663     const char *questionable = closure;
664     const char *prefix = p->key;
665     if (strncmp (prefix, questionable, strlen (prefix))) return 0;
666     questionable += strlen (prefix);
667     while (ISSLASH (*questionable)) questionable++;
668     if (*questionable == '\0') return 1;
669     return pathname_levels (questionable);
670 }
671 
672 
673 
674 /*
675  * Need to validate the client pathname.  Disallowed paths include:
676  *
677  *   1. Absolute paths.
678  *   2. Pathnames that do not reference a specifically requested update
679  *      directory.
680  *
681  * In case 2, we actually only check that the directory is under the uppermost
682  * directories mentioned on the command line.
683  *
684  * RETURNS
685  *   True       If the path is valid.
686  *   False      Otherwise.
687  */
688 static
is_valid_client_path(const char * pathname)689 int is_valid_client_path (const char *pathname)
690 {
691     /* 1. Absolute paths. */
692     if (ISABSOLUTE (pathname)) return 0;
693     /* 2. No up-references in path.  */
694     if (pathname_levels (pathname) == 0) return 1;
695     /* 2. No Max-dotdot paths registered.  */
696     if (!uppaths) return 0;
697 
698     return walklist (uppaths, path_list_prefixed, (void *)pathname);
699 }
700 
701 
702 
703 /*
704  * Do all the processing for PATHNAME, where pathname consists of the
705  * repository and the filename.  The parameters we pass to FUNC are:
706  * DATA is just the DATA parameter which was passed to
707  * call_in_directory; ENT_LIST is a pointer to an entries list (which
708  * we manage the storage for); SHORT_PATHNAME is the pathname of the
709  * file relative to the (overall) directory in which the command is
710  * taking place; and FILENAME is the filename portion only of
711  * SHORT_PATHNAME.  When we call FUNC, the curent directory points to
712  * the directory portion of SHORT_PATHNAME.  */
713 static void
call_in_directory(const char * pathname,void (* func)(void *,List *,const char *,const char *),void * data)714 call_in_directory (const char *pathname,
715                    void (*func) (void *, List *, const char *, const char *),
716                    void *data)
717 {
718     /* This variable holds the result of Entries_Open. */
719     List *last_entries = NULL;
720     char *dir_name;
721     char *filename;
722     /* This is what we get when we hook up the directory (working directory
723        name) from PATHNAME with the filename from REPOSNAME.  For example:
724        pathname: ccvs/src/
725        reposname: /u/src/master/ccvs/foo/ChangeLog
726        short_pathname: ccvs/src/ChangeLog
727        */
728     char *short_pathname;
729     char *p;
730 
731     /*
732      * Do the whole descent in parallel for the repositories, so we
733      * know what to put in CVS/Repository files.  I'm not sure the
734      * full hair is necessary since the server does a similar
735      * computation; I suspect that we only end up creating one
736      * directory at a time anyway.
737      *
738      * Also note that we must *only* worry about this stuff when we
739      * are creating directories; `cvs co foo/bar; cd foo/bar; cvs co
740      * CVSROOT; cvs update' is legitimate, but in this case
741      * foo/bar/CVSROOT/CVS/Repository is not a subdirectory of
742      * foo/bar/CVS/Repository.
743      */
744     char *reposname;
745     char *short_repos;
746     char *reposdirname;
747     char *rdirp;
748     int reposdirname_absolute;
749     int newdir = 0;
750 
751     assert (pathname);
752 
753     reposname = NULL;
754     read_line (&reposname);
755     assert (reposname);
756 
757     reposdirname_absolute = 0;
758     if (strncmp (reposname, toplevel_repos, strlen (toplevel_repos)))
759     {
760           reposdirname_absolute = 1;
761           short_repos = reposname;
762     }
763     else
764     {
765           short_repos = reposname + strlen (toplevel_repos) + 1;
766           if (short_repos[-1] != '/')
767           {
768               reposdirname_absolute = 1;
769               short_repos = reposname;
770           }
771     }
772 
773    /* Now that we have SHORT_REPOS, we can calculate the path to the file we
774     * are being requested to operate on.
775     */
776     filename = strrchr (short_repos, '/');
777     if (!filename)
778           filename = short_repos;
779     else
780           ++filename;
781 
782     short_pathname = xmalloc (strlen (pathname) + strlen (filename) + 5);
783     strcpy (short_pathname, pathname);
784     strcat (short_pathname, filename);
785 
786     /* Now that we know the path to the file we were requested to operate on,
787      * we can verify that it is valid.
788      *
789      * For security reasons, if SHORT_PATHNAME is absolute or attempts to
790      * ascend outside of the current sanbbox, we abort.  The server should not
791      * send us anything but relative paths which remain inside the sandbox
792      * here.  Anything less means a trojan CVS server could create and edit
793      * arbitrary files on the client.
794      */
795     if (!is_valid_client_path (short_pathname))
796     {
797           error (0, 0,
798                "Server attempted to update a file via an invalid pathname:");
799         error (1, 0, "`%s'.", short_pathname);
800     }
801 
802     reposdirname = xstrdup (short_repos);
803     p = strrchr (reposdirname, '/');
804     if (!p)
805     {
806           reposdirname = xrealloc (reposdirname, 2);
807           reposdirname[0] = '.'; reposdirname[1] = '\0';
808     }
809     else
810           *p = '\0';
811 
812     dir_name = xstrdup (pathname);
813     p = strrchr (dir_name, '/');
814     if (!p)
815     {
816           dir_name = xrealloc (dir_name, 2);
817           dir_name[0] = '.'; dir_name[1] = '\0';
818     }
819     else
820           *p = '\0';
821     if (client_prune_dirs)
822           add_prune_candidate (dir_name);
823 
824     if (!toplevel_wd)
825     {
826           toplevel_wd = xgetcwd ();
827           if (!toplevel_wd)
828               error (1, errno, "could not get working directory");
829     }
830 
831     if (CVS_CHDIR (toplevel_wd) < 0)
832           error (1, errno, "could not chdir to %s", toplevel_wd);
833 
834     /* Create the CVS directory at the top level if needed.  The
835        isdir seems like an unneeded system call, but it *does*
836        need to be called both if the CVS_CHDIR below succeeds
837        (e.g.  "cvs co .") or if it fails (e.g. basicb-1a in
838        testsuite).  We only need to do this for the "." case,
839        since the server takes care of forcing this directory to be
840        created in all other cases.  If we don't create CVSADM
841        here, the call to Entries_Open below will fail.  FIXME:
842        perhaps this means that we should change our algorithm
843        below that calls Create_Admin instead of having this code
844        here? */
845     if (/* I think the reposdirname_absolute case has to do with
846              things like "cvs update /foo/bar".  In any event, the
847              code below which tries to put toplevel_repos into
848              CVS/Repository is almost surely unsuited to
849              the reposdirname_absolute case.  */
850           !reposdirname_absolute
851           && !strcmp (dir_name, ".")
852           && ! isdir (CVSADM))
853     {
854           char *repo;
855           char *r;
856 
857           newdir = 1;
858 
859           /* If toplevel_repos doesn't have at least one character, then the
860            * reference to r[-1] below could be out of bounds.
861            */
862           assert (*toplevel_repos);
863 
864           repo = xmalloc (strlen (toplevel_repos)
865                               + 10);
866           strcpy (repo, toplevel_repos);
867           r = repo + strlen (repo);
868           if (r[-1] != '.' || r[-2] != '/')
869               strcpy (r, "/.");
870 
871           Create_Admin (".", ".", repo, NULL, NULL, 0, 1, 1);
872 
873           free (repo);
874     }
875 
876     if (CVS_CHDIR (dir_name) < 0)
877     {
878           char *dir;
879           char *dirp;
880 
881           if (! existence_error (errno))
882               error (1, errno, "could not chdir to %s", dir_name);
883 
884           /* Directory does not exist, we need to create it.  */
885           newdir = 1;
886 
887           /* Provided we are willing to assume that directories get
888              created one at a time, we could simplify this a lot.
889              Do note that one aspect still would need to walk the
890              dir_name path: the checking for "fncmp (dir, CVSADM)".  */
891 
892           dir = xmalloc (strlen (dir_name) + 1);
893           dirp = dir_name;
894           rdirp = reposdirname;
895 
896           /* This algorithm makes nested directories one at a time
897              and create CVS administration files in them.  For
898              example, we're checking out foo/bar/baz from the
899              repository:
900 
901              1) create foo, point CVS/Repository to <root>/foo
902              2)     .. foo/bar                   .. <root>/foo/bar
903              3)     .. foo/bar/baz               .. <root>/foo/bar/baz
904 
905              As you can see, we're just stepping along DIR_NAME (with
906              DIRP) and REPOSDIRNAME (with RDIRP) respectively.
907 
908              We need to be careful when we are checking out a
909              module, however, since DIR_NAME and REPOSDIRNAME are not
910              going to be the same.  Since modules will not have any
911              slashes in their names, we should watch the output of
912              STRCHR to decide whether or not we should use STRCHR on
913              the RDIRP.  That is, if we're down to a module name,
914              don't keep picking apart the repository directory name.  */
915 
916           do
917           {
918               dirp = strchr (dirp, '/');
919               if (dirp)
920               {
921                     strncpy (dir, dir_name, dirp - dir_name);
922                     dir[dirp - dir_name] = '\0';
923                     /* Skip the slash.  */
924                     ++dirp;
925                     if (!rdirp)
926                         /* This just means that the repository string has
927                            fewer components than the dir_name string.  But
928                            that is OK (e.g. see modules3-8 in testsuite).  */
929                         ;
930                     else
931                         rdirp = strchr (rdirp, '/');
932               }
933               else
934               {
935                     /* If there are no more slashes in the dir name,
936                        we're down to the most nested directory -OR- to
937                        the name of a module.  In the first case, we
938                        should be down to a DIRP that has no slashes,
939                        so it won't help/hurt to do another STRCHR call
940                        on DIRP.  It will definitely hurt, however, if
941                        we're down to a module name, since a module
942                        name can point to a nested directory (that is,
943                        DIRP will still have slashes in it.  Therefore,
944                        we should set it to NULL so the routine below
945                        copies the contents of REMOTEDIRNAME onto the
946                        root repository directory (does this if rdirp
947                        is set to NULL, because we used to do an extra
948                        STRCHR call here). */
949 
950                     rdirp = NULL;
951                     strcpy (dir, dir_name);
952               }
953 
954               if (fncmp (dir, CVSADM) == 0)
955               {
956                     error (0, 0, "cannot create a directory named %s", dir);
957                     error (0, 0, "because CVS uses \"%s\" for its own uses",
958                            CVSADM);
959                     error (1, 0, "rename the directory and try again");
960               }
961 
962               if (mkdir_if_needed (dir))
963               {
964                     /* It already existed, fine.  Just keep going.  */
965               }
966               else if (!strcmp (cvs_cmd_name, "export"))
967                     /* Don't create CVSADM directories if this is export.  */
968                     ;
969               else
970               {
971                     /*
972                      * Put repository in CVS/Repository.  For historical
973                      * (pre-CVS/Root) reasons, this is an absolute pathname,
974                      * but what really matters is the part of it which is
975                      * relative to cvsroot.
976                      */
977                     char *repo;
978                     char *r, *b;
979 
980                     repo = xmalloc (strlen (reposdirname)
981                                         + strlen (toplevel_repos)
982                                         + 80);
983                     if (reposdirname_absolute)
984                         r = repo;
985                     else
986                     {
987                         strcpy (repo, toplevel_repos);
988                         strcat (repo, "/");
989                         r = repo + strlen (repo);
990                     }
991 
992                     if (rdirp)
993                     {
994                         /* See comment near start of function; the only
995                            way that the server can put the right thing
996                            in each CVS/Repository file is to create the
997                            directories one at a time.  I think that the
998                            CVS server has been doing this all along.  */
999                         error (0, 0, "\
1000 warning: server is not creating directories one at a time");
1001                         strncpy (r, reposdirname, rdirp - reposdirname);
1002                         r[rdirp - reposdirname] = '\0';
1003                     }
1004                     else
1005                         strcpy (r, reposdirname);
1006 
1007                     Create_Admin (dir, dir, repo, NULL, NULL, 0, 0, 1);
1008                     free (repo);
1009 
1010                     b = strrchr (dir, '/');
1011                     if (!b)
1012                         Subdir_Register (NULL, NULL, dir);
1013                     else
1014                     {
1015                         *b = '\0';
1016                         Subdir_Register (NULL, dir, b + 1);
1017                         *b = '/';
1018                     }
1019               }
1020 
1021               if (rdirp)
1022               {
1023                     /* Skip the slash.  */
1024                     ++rdirp;
1025               }
1026 
1027           } while (dirp);
1028           free (dir);
1029           /* Now it better work.  */
1030           if (CVS_CHDIR (dir_name) < 0)
1031               error (1, errno, "could not chdir to %s", dir_name);
1032     }
1033     else if (!strcmp (cvs_cmd_name, "export"))
1034           /* Don't create CVSADM directories if this is export.  */
1035           ;
1036     else if (!isdir (CVSADM))
1037     {
1038           /*
1039            * Put repository in CVS/Repository.  For historical
1040            * (pre-CVS/Root) reasons, this is an absolute pathname,
1041            * but what really matters is the part of it which is
1042            * relative to cvsroot.
1043            */
1044           char *repo;
1045 
1046           if (reposdirname_absolute)
1047               repo = reposdirname;
1048           else
1049               repo = Xasprintf ("%s/%s", toplevel_repos, reposdirname);
1050 
1051           Create_Admin (".", ".", repo, NULL, NULL, 0, 1, 1);
1052           if (repo != reposdirname)
1053               free (repo);
1054     }
1055 
1056     if (strcmp (cvs_cmd_name, "export"))
1057     {
1058           last_entries = Entries_Open (0, dir_name);
1059 
1060           /* If this is a newly created directory, we will record
1061              all subdirectory information, so call Subdirs_Known in
1062              case there are no subdirectories.  If this is not a
1063              newly created directory, it may be an old working
1064              directory from before we recorded subdirectory
1065              information in the Entries file.  We force a search for
1066              all subdirectories now, to make sure our subdirectory
1067              information is up to date.  If the Entries file does
1068              record subdirectory information, then this call only
1069              does list manipulation.  */
1070           if (newdir)
1071               Subdirs_Known (last_entries);
1072           else
1073           {
1074               List *dirlist;
1075 
1076               dirlist = Find_Directories (NULL, W_LOCAL, last_entries);
1077               dellist (&dirlist);
1078           }
1079     }
1080     free (reposdirname);
1081     (*func) (data, last_entries, short_pathname, filename);
1082     if (last_entries)
1083           Entries_Close (last_entries);
1084     free (dir_name);
1085     free (short_pathname);
1086     free (reposname);
1087 }
1088 
1089 
1090 
1091 static void
copy_a_file(void * data,List * ent_list,const char * short_pathname,const char * filename)1092 copy_a_file (void *data, List *ent_list, const char *short_pathname,
1093                const char *filename)
1094 {
1095     char *newname;
1096 
1097     read_line (&newname);
1098 
1099 #ifdef USE_VMS_FILENAMES
1100     {
1101           /* Mogrify the filename so VMS is happy with it. */
1102           char *p;
1103           for(p = newname; *p; p++)
1104              if(*p == '.' || *p == '#') *p = '_';
1105     }
1106 #endif
1107     /* cvsclient.texi has said for a long time that newname must be in the
1108        same directory.  Wouldn't want a malicious or buggy server overwriting
1109        ~/.profile, /etc/passwd, or anything like that.  */
1110     if (last_component (newname) != newname)
1111           error (1, 0, "protocol error: Copy-file tried to specify directory");
1112 
1113     if (unlink_file (newname) && !existence_error (errno))
1114           error (0, errno, "unable to remove %s", newname);
1115     copy_file (filename, newname);
1116     free (newname);
1117 }
1118 
1119 
1120 
1121 static void
handle_copy_file(char * args,size_t len)1122 handle_copy_file (char *args, size_t len)
1123 {
1124     call_in_directory (args, copy_a_file, NULL);
1125 }
1126 
1127 
1128 
1129 /* Read from the server the count for the length of a file, then read
1130    the contents of that file and write them to FILENAME.  FULLNAME is
1131    the name of the file for use in error messages.  FIXME-someday:
1132    extend this to deal with compressed files and make update_entries
1133    use it.  On error, gives a fatal error.  */
1134 static void
read_counted_file(char * filename,char * fullname)1135 read_counted_file (char *filename, char *fullname)
1136 {
1137     char *size_string;
1138     size_t size;
1139     char *buf;
1140 
1141     /* Pointers in buf to the place to put data which will be read,
1142        and the data which needs to be written, respectively.  */
1143     char *pread;
1144     char *pwrite;
1145     /* Number of bytes left to read and number of bytes in buf waiting to
1146        be written, respectively.  */
1147     size_t nread;
1148     size_t nwrite;
1149 
1150     FILE *fp;
1151 
1152     read_line (&size_string);
1153     if (size_string[0] == 'z')
1154           error (1, 0, "\
1155 protocol error: compressed files not supported for that operation");
1156     /* FIXME: should be doing more error checking, probably.  Like using
1157        strtoul and making sure we used up the whole line.  */
1158     size = atoi (size_string);
1159     free (size_string);
1160 
1161     /* A more sophisticated implementation would use only a limited amount
1162        of buffer space (8K perhaps), and read that much at a time.  We allocate
1163        a buffer for the whole file only to make it easy to keep track what
1164        needs to be read and written.  */
1165     buf = xmalloc (size);
1166 
1167     /* FIXME-someday: caller should pass in a flag saying whether it
1168        is binary or not.  I haven't carefully looked into whether
1169        CVS/Template files should use local text file conventions or
1170        not.  */
1171     fp = CVS_FOPEN (filename, "wb");
1172     if (!fp)
1173           error (1, errno, "cannot write %s", fullname);
1174     nread = size;
1175     nwrite = 0;
1176     pread = buf;
1177     pwrite = buf;
1178     while (nread > 0 || nwrite > 0)
1179     {
1180           size_t n;
1181 
1182           if (nread > 0)
1183           {
1184               n = try_read_from_server (pread, nread);
1185               nread -= n;
1186               pread += n;
1187               nwrite += n;
1188           }
1189 
1190           if (nwrite > 0)
1191           {
1192               n = fwrite (pwrite, sizeof *pwrite, nwrite, fp);
1193               if (ferror (fp))
1194                     error (1, errno, "cannot write %s", fullname);
1195               nwrite -= n;
1196               pwrite += n;
1197           }
1198     }
1199     free (buf);
1200     if (fclose (fp) < 0)
1201           error (1, errno, "cannot close %s", fullname);
1202 }
1203 
1204 
1205 
1206 /* OK, we want to swallow the "U foo.c" response and then output it only
1207    if we can update the file.  In the future we probably want some more
1208    systematic approach to parsing tagged text, but for now we keep it
1209    ad hoc.  "Why," I hear you cry, "do we not just look at the
1210    Update-existing and Created responses?"  That is an excellent question,
1211    and the answer is roughly conservatism/laziness--I haven't read through
1212    update.c enough to figure out the exact correspondence or lack thereof
1213    between those responses and a "U foo.c" line (note that Merged, from
1214    join_file, can be either "C foo" or "U foo" depending on the context).  */
1215 /* Nonzero if we have seen +updated and not -updated.  */
1216 static int updated_seen;
1217 /* Filename from an "fname" tagged response within +updated/-updated.  */
1218 static char *updated_fname;
1219 
1220 /* This struct is used to hold data when reading the +importmergecmd
1221    and -importmergecmd tags.  We put the variables in a struct only
1222    for namespace issues.  FIXME: As noted above, we need to develop a
1223    more systematic approach.  */
1224 static struct
1225 {
1226     /* Nonzero if we have seen +importmergecmd and not -importmergecmd.  */
1227     int seen;
1228     /* Number of conflicts, from a "conflicts" tagged response.  */
1229     int conflicts;
1230     /* First merge tag, from a "mergetag1" tagged response.  */
1231     char *mergetag1;
1232     /* Second merge tag, from a "mergetag2" tagged response.  */
1233     char *mergetag2;
1234     /* Repository, from a "repository" tagged response.  */
1235     char *repository;
1236 } importmergecmd;
1237 
1238 /* Nonzero if we should arrange to return with a failure exit status.  */
1239 static bool failure_exit;
1240 
1241 
1242 /*
1243  * The time stamp of the last file we registered.
1244  */
1245 static time_t last_register_time;
1246 
1247 
1248 
1249 /*
1250  * The Checksum response gives the checksum for the file transferred
1251  * over by the next Updated, Merged or Patch response.  We just store
1252  * it here, and then check it in update_entries.
1253  */
1254 static int stored_checksum_valid;
1255 static unsigned char stored_checksum[16];
1256 static void
handle_checksum(char * args,size_t len)1257 handle_checksum (char *args, size_t len)
1258 {
1259     char *s;
1260     char buf[3];
1261     int i;
1262 
1263     if (stored_checksum_valid)
1264         error (1, 0, "Checksum received before last one was used");
1265 
1266     s = args;
1267     buf[2] = '\0';
1268     for (i = 0; i < 16; i++)
1269     {
1270         char *bufend;
1271 
1272           buf[0] = *s++;
1273           buf[1] = *s++;
1274           stored_checksum[i] = (char) strtol (buf, &bufend, 16);
1275           if (bufend != buf + 2)
1276               break;
1277     }
1278 
1279     if (i < 16 || *s != '\0')
1280         error (1, 0, "Invalid Checksum response: `%s'", args);
1281 
1282     stored_checksum_valid = 1;
1283 }
1284 
1285 
1286 
1287 /* Mode that we got in a "Mode" response (malloc'd), or NULL if none.  */
1288 static char *stored_mode;
1289 static void
handle_mode(char * args,size_t len)1290 handle_mode (char *args, size_t len)
1291 {
1292     if (stored_mode)
1293           error (1, 0, "protocol error: duplicate Mode");
1294     stored_mode = xstrdup (args);
1295 }
1296 
1297 
1298 
1299 /* Nonzero if time was specified in Mod-time.  */
1300 static int stored_modtime_valid;
1301 /* Time specified in Mod-time.  */
1302 static time_t stored_modtime;
1303 static void
handle_mod_time(char * args,size_t len)1304 handle_mod_time (char *args, size_t len)
1305 {
1306     struct timespec newtime;
1307     if (stored_modtime_valid)
1308           error (0, 0, "protocol error: duplicate Mod-time");
1309     if (get_date (&newtime, args, NULL))
1310     {
1311           /* Truncate nanoseconds.  */
1312           stored_modtime = newtime.tv_sec;
1313           stored_modtime_valid = 1;
1314     }
1315     else
1316           error (0, 0, "protocol error: cannot parse date %s", args);
1317 }
1318 
1319 
1320 
1321 /*
1322  * If we receive a patch, but the patch program fails to apply it, we
1323  * want to request the original file.  We keep a list of files whose
1324  * patches have failed.
1325  */
1326 
1327 char **failed_patches;
1328 int failed_patches_count;
1329 
1330 struct update_entries_data
1331 {
1332     enum {
1333       /*
1334        * We are just getting an Entries line; the local file is
1335        * correct.
1336        */
1337       UPDATE_ENTRIES_CHECKIN,
1338       /* We are getting the file contents as well.  */
1339       UPDATE_ENTRIES_UPDATE,
1340       /*
1341        * We are getting a patch against the existing local file, not
1342        * an entire new file.
1343        */
1344       UPDATE_ENTRIES_PATCH,
1345       /*
1346        * We are getting an RCS change text (diff -n output) against
1347        * the existing local file, not an entire new file.
1348        */
1349       UPDATE_ENTRIES_RCS_DIFF
1350     } contents;
1351 
1352     enum {
1353           /* We are replacing an existing file.  */
1354           UPDATE_ENTRIES_EXISTING,
1355           /* We are creating a new file.  */
1356           UPDATE_ENTRIES_NEW,
1357           /* We don't know whether it is existing or new.  */
1358           UPDATE_ENTRIES_EXISTING_OR_NEW
1359     } existp;
1360 
1361     /*
1362      * String to put in the timestamp field or NULL to use the timestamp
1363      * of the file.
1364      */
1365     char *timestamp;
1366 };
1367 
1368 
1369 
1370 /* Update the Entries line for this file.  */
1371 static void
update_entries(void * data_arg,List * ent_list,const char * short_pathname,const char * filename)1372 update_entries (void *data_arg, List *ent_list, const char *short_pathname,
1373                 const char *filename)
1374 {
1375     char *entries_line;
1376     struct update_entries_data *data = data_arg;
1377 
1378     char *cp;
1379     char *user;
1380     char *vn;
1381     /* Timestamp field.  Always empty according to the protocol.  */
1382     char *ts;
1383     char *options = NULL;
1384     char *tag = NULL;
1385     char *date = NULL;
1386     char *tag_or_date;
1387     char *scratch_entries = NULL;
1388     int bin;
1389 
1390 #ifdef UTIME_EXPECTS_WRITABLE
1391     int change_it_back = 0;
1392 #endif
1393 
1394     read_line (&entries_line);
1395 
1396     /*
1397      * Parse the entries line.
1398      */
1399     scratch_entries = xstrdup (entries_line);
1400 
1401     if (scratch_entries[0] != '/')
1402         error (1, 0, "bad entries line `%s' from server", entries_line);
1403     user = scratch_entries + 1;
1404     if (!(cp = strchr (user, '/')))
1405         error (1, 0, "bad entries line `%s' from server", entries_line);
1406     *cp++ = '\0';
1407     vn = cp;
1408     if (!(cp = strchr (vn, '/')))
1409         error (1, 0, "bad entries line `%s' from server", entries_line);
1410     *cp++ = '\0';
1411 
1412     ts = cp;
1413     if (!(cp = strchr (ts, '/')))
1414         error (1, 0, "bad entries line `%s' from server", entries_line);
1415     *cp++ = '\0';
1416     options = cp;
1417     if (!(cp = strchr (options, '/')))
1418         error (1, 0, "bad entries line `%s' from server", entries_line);
1419     *cp++ = '\0';
1420     tag_or_date = cp;
1421 
1422     /* If a slash ends the tag_or_date, ignore everything after it.  */
1423     cp = strchr (tag_or_date, '/');
1424     if (cp)
1425         *cp = '\0';
1426     if (*tag_or_date == 'T')
1427         tag = tag_or_date + 1;
1428     else if (*tag_or_date == 'D')
1429         date = tag_or_date + 1;
1430 
1431     /* Done parsing the entries line. */
1432 
1433     if (data->contents == UPDATE_ENTRIES_UPDATE
1434           || data->contents == UPDATE_ENTRIES_PATCH
1435           || data->contents == UPDATE_ENTRIES_RCS_DIFF)
1436     {
1437           char *size_string;
1438           char *mode_string;
1439           int size;
1440           char *buf;
1441           char *temp_filename;
1442           int use_gzip;
1443           int patch_failed;
1444 
1445           read_line (&mode_string);
1446 
1447           read_line (&size_string);
1448           if (size_string[0] == 'z')
1449           {
1450               use_gzip = 1;
1451               size = atoi (size_string+1);
1452           }
1453           else
1454           {
1455               use_gzip = 0;
1456               size = atoi (size_string);
1457           }
1458           free (size_string);
1459 
1460           /* Note that checking this separately from writing the file is
1461              a race condition: if the existence or lack thereof of the
1462              file changes between now and the actual calls which
1463              operate on it, we lose.  However (a) there are so many
1464              cases, I'm reluctant to try to fix them all, (b) in some
1465              cases the system might not even have a system call which
1466              does the right thing, and (c) it isn't clear this needs to
1467              work.  */
1468           if (data->existp == UPDATE_ENTRIES_EXISTING
1469               && !isfile (filename))
1470               /* Emit a warning and update the file anyway.  */
1471               error (0, 0, "warning: %s unexpectedly disappeared",
1472                        short_pathname);
1473 
1474           if (data->existp == UPDATE_ENTRIES_NEW
1475               && isfile (filename))
1476           {
1477               /* Emit a warning and refuse to update the file; we don't want
1478                  to clobber a user's file.  */
1479               size_t nread;
1480               size_t toread;
1481 
1482               /* size should be unsigned, but until we get around to fixing
1483                  that, work around it.  */
1484               size_t usize;
1485 
1486               char buf[8192];
1487 
1488               /* This error might be confusing; it isn't really clear to
1489                  the user what to do about it.  Keep in mind that it has
1490                  several causes: (1) something/someone creates the file
1491                  during the time that CVS is running, (2) the repository
1492                  has two files whose names clash for the client because
1493                  of case-insensitivity or similar causes, See 3 for
1494                  additional notes.  (3) a special case of this is that a
1495                  file gets renamed for example from a.c to A.C.  A
1496                  "cvs update" on a case-insensitive client will get this
1497                  error.  In this case and in case 2, the filename
1498                  (short_pathname) printed in the error message will likely _not_
1499                  have the same case as seen by the user in a directory listing.
1500                  (4) the client has a file which the server doesn't know
1501                  about (e.g. "? foo" file), and that name clashes with a file
1502                  the server does know about, (5) classify.c will print the same
1503                  message for other reasons.
1504 
1505                  I hope the above paragraph makes it clear that making this
1506                  clearer is not a one-line fix.  */
1507               error (0, 0, "move away `%s'; it is in the way", short_pathname);
1508               if (updated_fname)
1509               {
1510                     cvs_output ("C ", 0);
1511                     cvs_output (updated_fname, 0);
1512                     cvs_output ("\n", 1);
1513               }
1514               failure_exit = true;
1515 
1516           discard_file_and_return:
1517               /* Now read and discard the file contents.  */
1518               usize = size;
1519               nread = 0;
1520               while (nread < usize)
1521               {
1522                     toread = usize - nread;
1523                     if (toread > sizeof buf)
1524                         toread = sizeof buf;
1525 
1526                     nread += try_read_from_server (buf, toread);
1527                     if (nread == usize)
1528                         break;
1529               }
1530 
1531               free (mode_string);
1532               free (scratch_entries);
1533               free (entries_line);
1534 
1535               /* The Mode, Mod-time, and Checksum responses should not carry
1536                  over to a subsequent Created (or whatever) response, even
1537                  in the error case.  */
1538               if (stored_mode)
1539               {
1540                     free (stored_mode);
1541                     stored_mode = NULL;
1542               }
1543               stored_modtime_valid = 0;
1544               stored_checksum_valid = 0;
1545 
1546               if (updated_fname)
1547               {
1548                     free (updated_fname);
1549                     updated_fname = NULL;
1550               }
1551               return;
1552           }
1553 
1554           temp_filename = xmalloc (strlen (filename) + 80);
1555 #ifdef USE_VMS_FILENAMES
1556         /* A VMS rename of "blah.dat" to "foo" to implies a
1557            destination of "foo.dat" which is unfortinate for CVS */
1558           sprintf (temp_filename, "%s_new_", filename);
1559 #else
1560 #ifdef _POSIX_NO_TRUNC
1561           sprintf (temp_filename, ".new.%.9s", filename);
1562 #else /* _POSIX_NO_TRUNC */
1563           sprintf (temp_filename, ".new.%s", filename);
1564 #endif /* _POSIX_NO_TRUNC */
1565 #endif /* USE_VMS_FILENAMES */
1566 
1567           buf = xmalloc (size);
1568 
1569         /* Some systems, like OS/2 and Windows NT, end lines with CRLF
1570            instead of just LF.  Format translation is done in the C
1571            library I/O funtions.  Here we tell them whether or not to
1572            convert -- if this file is marked "binary" with the RCS -kb
1573            flag, then we don't want to convert, else we do (because
1574            CVS assumes text files by default). */
1575 
1576           if (options)
1577               bin = !strcmp (options, "-kb");
1578           else
1579               bin = 0;
1580 
1581           if (data->contents == UPDATE_ENTRIES_RCS_DIFF)
1582           {
1583               /* This is an RCS change text.  We just hold the change
1584                  text in memory.  */
1585 
1586               if (use_gzip)
1587                     error (1, 0,
1588                            "server error: gzip invalid with RCS change text");
1589 
1590               read_from_server (buf, size);
1591           }
1592           else
1593           {
1594               int fd;
1595 
1596               fd = CVS_OPEN (temp_filename,
1597                                  (O_WRONLY | O_CREAT | O_TRUNC
1598                                   | (bin ? OPEN_BINARY : 0)),
1599                                  0777);
1600 
1601               if (fd < 0)
1602               {
1603                     /* I can see a case for making this a fatal error; for
1604                        a condition like disk full or network unreachable
1605                        (for a file server), carrying on and giving an
1606                        error on each file seems unnecessary.  But if it is
1607                        a permission problem, or some such, then it is
1608                        entirely possible that future files will not have
1609                        the same problem.  */
1610                     error (0, errno, "cannot write %s", short_pathname);
1611                     free (temp_filename);
1612                     free (buf);
1613                     goto discard_file_and_return;
1614               }
1615 
1616               if (size > 0)
1617               {
1618                     read_from_server (buf, size);
1619 
1620                     if (use_gzip)
1621                     {
1622                         if (gunzip_and_write (fd, short_pathname,
1623                                                     (unsigned char *) buf, size))
1624                               error (1, 0, "aborting due to compression error");
1625                     }
1626                     else if (write (fd, buf, size) != size)
1627                         error (1, errno, "writing %s", short_pathname);
1628               }
1629 
1630               if (close (fd) < 0)
1631                     error (1, errno, "writing %s", short_pathname);
1632           }
1633 
1634           /* This is after we have read the file from the net (a change
1635              from previous versions, where the server would send us
1636              "M U foo.c" before Update-existing or whatever), but before
1637              we finish writing the file (arguably a bug).  The timing
1638              affects a user who wants status info about how far we have
1639              gotten, and also affects whether "U foo.c" appears in addition
1640              to various error messages.  */
1641           if (updated_fname)
1642           {
1643               cvs_output ("U ", 0);
1644               cvs_output (updated_fname, 0);
1645               cvs_output ("\n", 1);
1646               free (updated_fname);
1647               updated_fname = 0;
1648           }
1649 
1650           patch_failed = 0;
1651 
1652           if (data->contents == UPDATE_ENTRIES_UPDATE)
1653           {
1654               rename_file (temp_filename, filename);
1655           }
1656           else if (data->contents == UPDATE_ENTRIES_PATCH)
1657           {
1658               /* You might think we could just leave Patched out of
1659                  Valid-responses and not get this response.  However, if
1660                  memory serves, the CVS 1.9 server bases this on -u
1661                  (update-patches), and there is no way for us to send -u
1662                  or not based on whether the server supports "Rcs-diff".
1663 
1664                  Fall back to transmitting entire files.  */
1665               patch_failed = 1;
1666           }
1667           else
1668           {
1669               char *filebuf;
1670               size_t filebufsize;
1671               size_t nread;
1672               char *patchedbuf;
1673               size_t patchedlen;
1674 
1675               /* Handle UPDATE_ENTRIES_RCS_DIFF.  */
1676 
1677               if (!isfile (filename))
1678                   error (1, 0, "patch original file %s does not exist",
1679                            short_pathname);
1680               filebuf = NULL;
1681               filebufsize = 0;
1682               nread = 0;
1683 
1684               get_file (filename, short_pathname, bin ? FOPEN_BINARY_READ : "r",
1685                           &filebuf, &filebufsize, &nread);
1686               /* At this point the contents of the existing file are in
1687                FILEBUF, and the length of the contents is in NREAD.
1688                The contents of the patch from the network are in BUF,
1689                and the length of the patch is in SIZE.  */
1690 
1691               if (! rcs_change_text (short_pathname, filebuf, nread, buf, size,
1692                                            &patchedbuf, &patchedlen))
1693                     patch_failed = 1;
1694               else
1695               {
1696                     if (stored_checksum_valid)
1697                     {
1698                         unsigned char checksum[16];
1699 
1700                         /* We have a checksum.  Check it before writing
1701                            the file out, so that we don't have to read it
1702                            back in again.  */
1703                         md5_buffer (patchedbuf, patchedlen, checksum);
1704                         if (memcmp (checksum, stored_checksum, 16) != 0)
1705                         {
1706                               error (0, 0,
1707 "checksum failure after patch to %s; will refetch",
1708                                      short_pathname);
1709 
1710                               patch_failed = 1;
1711                         }
1712 
1713                         stored_checksum_valid = 0;
1714                     }
1715 
1716                     if (! patch_failed)
1717                     {
1718                         FILE *e;
1719 
1720                         e = xfopen (temp_filename,
1721                                         bin ? FOPEN_BINARY_WRITE : "w");
1722                         if (fwrite (patchedbuf, sizeof *patchedbuf, patchedlen, e)
1723                               != patchedlen)
1724                               error (1, errno, "cannot write %s", temp_filename);
1725                         if (fclose (e) == EOF)
1726                               error (1, errno, "cannot close %s", temp_filename);
1727                         rename_file (temp_filename, filename);
1728                     }
1729 
1730                     free (patchedbuf);
1731               }
1732 
1733               free (filebuf);
1734           }
1735 
1736           free (temp_filename);
1737 
1738           if (stored_checksum_valid && ! patch_failed)
1739           {
1740               FILE *e;
1741               struct md5_ctx context;
1742               unsigned char buf[8192];
1743               unsigned len;
1744               unsigned char checksum[16];
1745 
1746               /*
1747                * Compute the MD5 checksum.  This will normally only be
1748                * used when receiving a patch, so we always compute it
1749                * here on the final file, rather than on the received
1750                * data.
1751                *
1752                * Note that if the file is a text file, we should read it
1753                * here using text mode, so its lines will be terminated the same
1754                * way they were transmitted.
1755                */
1756               e = CVS_FOPEN (filename, "r");
1757               if (!e)
1758                   error (1, errno, "could not open %s", short_pathname);
1759 
1760               md5_init_ctx (&context);
1761               while ((len = fread (buf, 1, sizeof buf, e)) != 0)
1762                     md5_process_bytes (buf, len, &context);
1763               if (ferror (e))
1764                     error (1, errno, "could not read %s", short_pathname);
1765               md5_finish_ctx (&context, checksum);
1766 
1767               fclose (e);
1768 
1769               stored_checksum_valid = 0;
1770 
1771               if (memcmp (checksum, stored_checksum, 16) != 0)
1772               {
1773                   if (data->contents != UPDATE_ENTRIES_PATCH)
1774                         error (1, 0, "checksum failure on %s",
1775                                  short_pathname);
1776 
1777                     error (0, 0,
1778                            "checksum failure after patch to %s; will refetch",
1779                            short_pathname);
1780 
1781                     patch_failed = 1;
1782               }
1783           }
1784 
1785           if (patch_failed)
1786           {
1787               /* Save this file to retrieve later.  */
1788               failed_patches = xnrealloc (failed_patches,
1789                                                   failed_patches_count + 1,
1790                                                   sizeof (char *));
1791               failed_patches[failed_patches_count] = xstrdup (short_pathname);
1792               ++failed_patches_count;
1793 
1794               stored_checksum_valid = 0;
1795 
1796               free (mode_string);
1797               free (buf);
1798               free (scratch_entries);
1799               free (entries_line);
1800 
1801               return;
1802           }
1803 
1804         {
1805               int status = change_mode (filename, mode_string, 1);
1806               if (status != 0)
1807                     error (0, status, "cannot change mode of %s", short_pathname);
1808           }
1809 
1810           free (mode_string);
1811           free (buf);
1812     }
1813 
1814     if (stored_mode)
1815     {
1816           change_mode (filename, stored_mode, 1);
1817           free (stored_mode);
1818           stored_mode = NULL;
1819     }
1820 
1821     if (stored_modtime_valid)
1822     {
1823           struct utimbuf t;
1824 
1825           memset (&t, 0, sizeof (t));
1826           t.modtime = stored_modtime;
1827           (void) time (&t.actime);
1828 
1829 #ifdef UTIME_EXPECTS_WRITABLE
1830           if (!iswritable (filename))
1831           {
1832               xchmod (filename, 1);
1833               change_it_back = 1;
1834           }
1835 #endif  /* UTIME_EXPECTS_WRITABLE  */
1836 
1837           if (utime (filename, &t) < 0)
1838               error (0, errno, "cannot set time on %s", filename);
1839 
1840 #ifdef UTIME_EXPECTS_WRITABLE
1841           if (change_it_back)
1842           {
1843               xchmod (filename, 0);
1844               change_it_back = 0;
1845           }
1846 #endif  /*  UTIME_EXPECTS_WRITABLE  */
1847 
1848           stored_modtime_valid = 0;
1849     }
1850 
1851     /*
1852      * Process the entries line.  Do this after we've written the file,
1853      * since we need the timestamp.
1854      */
1855     if (strcmp (cvs_cmd_name, "export"))
1856     {
1857           char *local_timestamp;
1858           char *file_timestamp;
1859 
1860           (void) time (&last_register_time);
1861 
1862           local_timestamp = data->timestamp;
1863           if (!local_timestamp || ts[0] == '+')
1864               file_timestamp = time_stamp (filename);
1865           else
1866               file_timestamp = NULL;
1867 
1868           /*
1869            * These special version numbers signify that it is not up to
1870            * date.  Create a dummy timestamp which will never compare
1871            * equal to the timestamp of the file.
1872            */
1873           if (vn[0] == '\0' || !strcmp (vn, "0") || vn[0] == '-')
1874               local_timestamp = "dummy timestamp";
1875           else if (!local_timestamp)
1876           {
1877               local_timestamp = file_timestamp;
1878 
1879               /* Checking for cvs_cmd_name of "commit" doesn't seem like
1880                  the cleanest way to handle this, but it seem to roughly
1881                  parallel what the :local: code which calls
1882                  mark_up_to_date ends up amounting to.  Some day, should
1883                  think more about what the Checked-in response means
1884                  vis-a-vis both Entries and Base and clarify
1885                  cvsclient.texi accordingly.  */
1886 
1887               if (!strcmp (cvs_cmd_name, "commit"))
1888                     mark_up_to_date (filename);
1889           }
1890 
1891           Register (ent_list, filename, vn, local_timestamp,
1892                       options, tag, date, ts[0] == '+' ? file_timestamp : NULL);
1893 
1894           if (file_timestamp)
1895               free (file_timestamp);
1896 
1897     }
1898     free (scratch_entries);
1899     free (entries_line);
1900 }
1901 
1902 
1903 
1904 static void
handle_checked_in(char * args,size_t len)1905 handle_checked_in (char *args, size_t len)
1906 {
1907     struct update_entries_data dat;
1908     dat.contents = UPDATE_ENTRIES_CHECKIN;
1909     dat.existp = UPDATE_ENTRIES_EXISTING_OR_NEW;
1910     dat.timestamp = NULL;
1911     call_in_directory (args, update_entries, &dat);
1912 }
1913 
1914 
1915 
1916 static void
handle_new_entry(char * args,size_t len)1917 handle_new_entry (char *args, size_t len)
1918 {
1919     struct update_entries_data dat;
1920     dat.contents = UPDATE_ENTRIES_CHECKIN;
1921     dat.existp = UPDATE_ENTRIES_EXISTING_OR_NEW;
1922     dat.timestamp = "dummy timestamp from new-entry";
1923     call_in_directory (args, update_entries, &dat);
1924 }
1925 
1926 
1927 
1928 static void
handle_updated(char * args,size_t len)1929 handle_updated (char *args, size_t len)
1930 {
1931     struct update_entries_data dat;
1932     dat.contents = UPDATE_ENTRIES_UPDATE;
1933     dat.existp = UPDATE_ENTRIES_EXISTING_OR_NEW;
1934     dat.timestamp = NULL;
1935     call_in_directory (args, update_entries, &dat);
1936 }
1937 
1938 
1939 
1940 static void
handle_created(char * args,size_t len)1941 handle_created (char *args, size_t len)
1942 {
1943     struct update_entries_data dat;
1944     dat.contents = UPDATE_ENTRIES_UPDATE;
1945     dat.existp = UPDATE_ENTRIES_NEW;
1946     dat.timestamp = NULL;
1947     call_in_directory (args, update_entries, &dat);
1948 }
1949 
1950 
1951 
1952 static void
handle_update_existing(char * args,size_t len)1953 handle_update_existing (char *args, size_t len)
1954 {
1955     struct update_entries_data dat;
1956     dat.contents = UPDATE_ENTRIES_UPDATE;
1957     dat.existp = UPDATE_ENTRIES_EXISTING;
1958     dat.timestamp = NULL;
1959     call_in_directory (args, update_entries, &dat);
1960 }
1961 
1962 
1963 
1964 static void
handle_merged(char * args,size_t len)1965 handle_merged (char *args, size_t len)
1966 {
1967     struct update_entries_data dat;
1968     dat.contents = UPDATE_ENTRIES_UPDATE;
1969     /* Think this could be UPDATE_ENTRIES_EXISTING, but just in case...  */
1970     dat.existp = UPDATE_ENTRIES_EXISTING_OR_NEW;
1971     dat.timestamp = "Result of merge";
1972     call_in_directory (args, update_entries, &dat);
1973 }
1974 
1975 
1976 
1977 static void
handle_patched(char * args,size_t len)1978 handle_patched (char *args, size_t len)
1979 {
1980     struct update_entries_data dat;
1981     dat.contents = UPDATE_ENTRIES_PATCH;
1982     /* Think this could be UPDATE_ENTRIES_EXISTING, but just in case...  */
1983     dat.existp = UPDATE_ENTRIES_EXISTING_OR_NEW;
1984     dat.timestamp = NULL;
1985     call_in_directory (args, update_entries, &dat);
1986 }
1987 
1988 
1989 
1990 static void
handle_rcs_diff(char * args,size_t len)1991 handle_rcs_diff (char *args, size_t len)
1992 {
1993     struct update_entries_data dat;
1994     dat.contents = UPDATE_ENTRIES_RCS_DIFF;
1995     /* Think this could be UPDATE_ENTRIES_EXISTING, but just in case...  */
1996     dat.existp = UPDATE_ENTRIES_EXISTING_OR_NEW;
1997     dat.timestamp = NULL;
1998     call_in_directory (args, update_entries, &dat);
1999 }
2000 
2001 
2002 
2003 static void
remove_entry(void * data,List * ent_list,const char * short_pathname,const char * filename)2004 remove_entry (void *data, List *ent_list, const char *short_pathname,
2005               const char *filename)
2006 {
2007     Scratch_Entry (ent_list, filename);
2008 }
2009 
2010 
2011 
2012 static void
handle_remove_entry(char * args,size_t len)2013 handle_remove_entry (char *args, size_t len)
2014 {
2015     call_in_directory (args, remove_entry, NULL);
2016 }
2017 
2018 
2019 
2020 static void
remove_entry_and_file(void * data,List * ent_list,const char * short_pathname,const char * filename)2021 remove_entry_and_file (void *data, List *ent_list, const char *short_pathname,
2022                        const char *filename)
2023 {
2024     Scratch_Entry (ent_list, filename);
2025     /* Note that we don't ignore existence_error's here.  The server
2026        should be sending Remove-entry rather than Removed in cases
2027        where the file does not exist.  And if the user removes the
2028        file halfway through a cvs command, we should be printing an
2029        error.  */
2030     if (unlink_file (filename) < 0)
2031           error (0, errno, "unable to remove %s", short_pathname);
2032 }
2033 
2034 
2035 
2036 static void
handle_removed(char * args,size_t len)2037 handle_removed (char *args, size_t len)
2038 {
2039     call_in_directory (args, remove_entry_and_file, NULL);
2040 }
2041 
2042 
2043 
2044 /* Is this the top level (directory containing CVSROOT)?  */
2045 static int
is_cvsroot_level(char * pathname)2046 is_cvsroot_level (char *pathname)
2047 {
2048     if (strcmp (toplevel_repos, current_parsed_root->directory))
2049           return 0;
2050 
2051     return !strchr (pathname, '/');
2052 }
2053 
2054 
2055 
2056 static void
set_static(void * data,List * ent_list,const char * short_pathname,const char * filename)2057 set_static (void *data, List *ent_list, const char *short_pathname,
2058               const char *filename)
2059 {
2060     FILE *fp;
2061     fp = xfopen (CVSADM_ENTSTAT, "w+");
2062     if (fclose (fp) == EOF)
2063         error (1, errno, "cannot close %s", CVSADM_ENTSTAT);
2064 }
2065 
2066 
2067 
2068 static void
handle_set_static_directory(char * args,size_t len)2069 handle_set_static_directory (char *args, size_t len)
2070 {
2071     if (!strcmp (cvs_cmd_name, "export"))
2072     {
2073           /* Swallow the repository.  */
2074           read_line (NULL);
2075           return;
2076     }
2077     call_in_directory (args, set_static, NULL);
2078 }
2079 
2080 
2081 
2082 static void
clear_static(void * data,List * ent_list,const char * short_pathname,const char * filename)2083 clear_static (void *data, List *ent_list, const char *short_pathname,
2084               const char *filename)
2085 {
2086     if (unlink_file (CVSADM_ENTSTAT) < 0 && ! existence_error (errno))
2087         error (1, errno, "cannot remove file %s", CVSADM_ENTSTAT);
2088 }
2089 
2090 
2091 
2092 static void
handle_clear_static_directory(char * pathname,size_t len)2093 handle_clear_static_directory (char *pathname, size_t len)
2094 {
2095     if (!strcmp (cvs_cmd_name, "export"))
2096     {
2097           /* Swallow the repository.  */
2098           read_line (NULL);
2099           return;
2100     }
2101 
2102     if (is_cvsroot_level (pathname))
2103     {
2104         /*
2105            * Top level (directory containing CVSROOT).  This seems to normally
2106            * lack a CVS directory, so don't try to create files in it.
2107            */
2108           return;
2109     }
2110     call_in_directory (pathname, clear_static, NULL);
2111 }
2112 
2113 
2114 
2115 static void
set_sticky(void * data,List * ent_list,const char * short_pathname,const char * filename)2116 set_sticky (void *data, List *ent_list, const char *short_pathname,
2117               const char *filename)
2118 {
2119     char *tagspec;
2120     FILE *f;
2121 
2122     read_line (&tagspec);
2123 
2124     /* FIXME-update-dir: error messages should include the directory.  */
2125     f = CVS_FOPEN (CVSADM_TAG, "w+");
2126     if (!f)
2127     {
2128           /* Making this non-fatal is a bit of a kludge (see dirs2
2129              in testsuite).  A better solution would be to avoid having
2130              the server tell us about a directory we shouldn't be doing
2131              anything with anyway (e.g. by handling directory
2132              addition/removal better).  */
2133           error (0, errno, "cannot open %s", CVSADM_TAG);
2134           free (tagspec);
2135           return;
2136     }
2137     if (fprintf (f, "%s\n", tagspec) < 0)
2138           error (1, errno, "writing %s", CVSADM_TAG);
2139     if (fclose (f) == EOF)
2140           error (1, errno, "closing %s", CVSADM_TAG);
2141     free (tagspec);
2142 }
2143 
2144 
2145 
2146 static void
handle_set_sticky(char * pathname,size_t len)2147 handle_set_sticky (char *pathname, size_t len)
2148 {
2149     if (!strcmp (cvs_cmd_name, "export"))
2150     {
2151           /* Swallow the repository.  */
2152           read_line (NULL);
2153         /* Swallow the tag line.  */
2154           read_line (NULL);
2155           return;
2156     }
2157     if (is_cvsroot_level (pathname))
2158     {
2159         /*
2160            * Top level (directory containing CVSROOT).  This seems to normally
2161            * lack a CVS directory, so don't try to create files in it.
2162            */
2163 
2164           /* Swallow the repository.  */
2165           read_line (NULL);
2166         /* Swallow the tag line.  */
2167           read_line (NULL);
2168           return;
2169     }
2170 
2171     call_in_directory (pathname, set_sticky, NULL);
2172 }
2173 
2174 
2175 
2176 static void
clear_sticky(void * data,List * ent_list,const char * short_pathname,const char * filename)2177 clear_sticky (void *data, List *ent_list, const char *short_pathname,
2178               const char *filename)
2179 {
2180     if (unlink_file (CVSADM_TAG) < 0 && ! existence_error (errno))
2181           error (1, errno, "cannot remove %s", CVSADM_TAG);
2182 }
2183 
2184 
2185 
2186 static void
handle_clear_sticky(char * pathname,size_t len)2187 handle_clear_sticky (char *pathname, size_t len)
2188 {
2189     if (!strcmp (cvs_cmd_name, "export"))
2190     {
2191           /* Swallow the repository.  */
2192           read_line (NULL);
2193           return;
2194     }
2195 
2196     if (is_cvsroot_level (pathname))
2197     {
2198         /*
2199            * Top level (directory containing CVSROOT).  This seems to normally
2200            * lack a CVS directory, so don't try to create files in it.
2201            */
2202           return;
2203     }
2204 
2205     call_in_directory (pathname, clear_sticky, NULL);
2206 }
2207 
2208 
2209 
2210 /* Handle the client-side support for a successful edit.
2211  */
2212 static void
handle_edit_file(char * pathname,size_t len)2213 handle_edit_file (char *pathname, size_t len)
2214 {
2215     call_in_directory (pathname, edit_file, NULL);
2216 }
2217 
2218 
2219 
2220 static void
template(void * data,List * ent_list,const char * short_pathname,const char * filename)2221 template (void *data, List *ent_list, const char *short_pathname,
2222             const char *filename)
2223 {
2224     char *buf = Xasprintf ("%s/%s", short_pathname, CVSADM_TEMPLATE);
2225     read_counted_file (CVSADM_TEMPLATE, buf);
2226     free (buf);
2227 }
2228 
2229 
2230 
2231 static void
handle_template(char * pathname,size_t len)2232 handle_template (char *pathname, size_t len)
2233 {
2234     call_in_directory (pathname, template, NULL);
2235 }
2236 
2237 
2238 
2239 static void
clear_template(void * data,List * ent_list,const char * short_pathname,const char * filename)2240 clear_template (void *data, List *ent_list, const char *short_pathname,
2241                 const char *filename)
2242 {
2243     if (unlink_file (CVSADM_TEMPLATE) < 0 && ! existence_error (errno))
2244           error (1, errno, "cannot remove %s", CVSADM_TEMPLATE);
2245 }
2246 
2247 
2248 
2249 static void
handle_clear_template(char * pathname,size_t len)2250 handle_clear_template (char *pathname, size_t len)
2251 {
2252     call_in_directory (pathname, clear_template, NULL);
2253 }
2254 
2255 
2256 
2257 struct save_dir {
2258     char *dir;
2259     struct save_dir *next;
2260 };
2261 
2262 struct save_dir *prune_candidates;
2263 
2264 static void
add_prune_candidate(const char * dir)2265 add_prune_candidate (const char *dir)
2266 {
2267     struct save_dir *p;
2268 
2269     if ((dir[0] == '.' && dir[1] == '\0')
2270           || (prune_candidates && !strcmp (dir, prune_candidates->dir)))
2271           return;
2272     p = xmalloc (sizeof (struct save_dir));
2273     p->dir = xstrdup (dir);
2274     p->next = prune_candidates;
2275     prune_candidates = p;
2276 }
2277 
2278 
2279 
2280 static void
process_prune_candidates(void)2281 process_prune_candidates (void)
2282 {
2283     struct save_dir *p;
2284     struct save_dir *q;
2285 
2286     if (toplevel_wd)
2287     {
2288           if (CVS_CHDIR (toplevel_wd) < 0)
2289               error (1, errno, "could not chdir to %s", toplevel_wd);
2290     }
2291     for (p = prune_candidates; p; )
2292     {
2293           if (isemptydir (p->dir, 1))
2294           {
2295               char *b;
2296 
2297               if (unlink_file_dir (p->dir) < 0)
2298                     error (0, errno, "cannot remove %s", p->dir);
2299               b = strrchr (p->dir, '/');
2300               if (!b)
2301                     Subdir_Deregister (NULL, NULL, p->dir);
2302               else
2303               {
2304                     *b = '\0';
2305                     Subdir_Deregister (NULL, p->dir, b + 1);
2306               }
2307           }
2308           free (p->dir);
2309           q = p->next;
2310           free (p);
2311           p = q;
2312     }
2313     prune_candidates = NULL;
2314 }
2315 
2316 
2317 
2318 /* Send a Repository line.  */
2319 static char *last_repos;
2320 static char *last_update_dir;
2321 static void
send_repository(const char * dir,const char * repos,const char * update_dir)2322 send_repository (const char *dir, const char *repos, const char *update_dir)
2323 {
2324     char *adm_name;
2325 
2326     /* FIXME: this is probably not the best place to check; I wish I
2327      * knew where in here's callers to really trap this bug.  To
2328      * reproduce the bug, just do this:
2329      *
2330      *       mkdir junk
2331      *       cd junk
2332      *       cvs -d some_repos update foo
2333      *
2334      * Poof, CVS seg faults and dies!  It's because it's trying to
2335      * send a NULL string to the server but dies in send_to_server.
2336      * That string was supposed to be the repository, but it doesn't
2337      * get set because there's no CVSADM dir, and somehow it's not
2338      * getting set from the -d argument either... ?
2339      */
2340     if (!repos)
2341     {
2342         /* Lame error.  I want a real fix but can't stay up to track
2343            this down right now. */
2344         error (1, 0, "no repository");
2345     }
2346 
2347     if (!update_dir || update_dir[0] == '\0')
2348           update_dir = ".";
2349 
2350     if (last_repos && !strcmp (repos, last_repos)
2351           && last_update_dir && !strcmp (update_dir, last_update_dir))
2352           /* We've already sent it.  */
2353           return;
2354 
2355     if (client_prune_dirs)
2356           add_prune_candidate (update_dir);
2357 
2358     /* Add a directory name to the list of those sent to the
2359        server. */
2360     if (update_dir && *update_dir != '\0' && strcmp (update_dir, ".")
2361           && !findnode (dirs_sent_to_server, update_dir))
2362     {
2363           Node *n;
2364           n = getnode ();
2365           n->type = NT_UNKNOWN;
2366           n->key = xstrdup (update_dir);
2367           n->data = NULL;
2368 
2369           if (addnode (dirs_sent_to_server, n))
2370               error (1, 0, "cannot add directory %s to list", n->key);
2371     }
2372 
2373     /* 80 is large enough for any of CVSADM_*.  */
2374     adm_name = xmalloc (strlen (dir) + 80);
2375 
2376     send_to_server ("Directory ", 0);
2377     {
2378           /* Send the directory name.  I know that this
2379              sort of duplicates code elsewhere, but each
2380              case seems slightly different...  */
2381           char buf[1];
2382           const char *p = update_dir;
2383           while (*p != '\0')
2384           {
2385               assert (*p != '\012');
2386               if (ISSLASH (*p))
2387               {
2388                     buf[0] = '/';
2389                     send_to_server (buf, 1);
2390               }
2391               else
2392               {
2393                     buf[0] = *p;
2394                     send_to_server (buf, 1);
2395               }
2396               ++p;
2397           }
2398     }
2399     send_to_server ("\012", 1);
2400     if (supported_request ("Relative-directory"))
2401     {
2402           const char *short_repos = Short_Repository (repos);
2403           send_to_server (short_repos, 0);
2404     }
2405     else
2406           send_to_server (repos, 0);
2407     send_to_server ("\012", 1);
2408 
2409     if (supported_request ("Static-directory"))
2410     {
2411           adm_name[0] = '\0';
2412           if (dir[0] != '\0')
2413           {
2414               strcat (adm_name, dir);
2415               strcat (adm_name, "/");
2416           }
2417           strcat (adm_name, CVSADM_ENTSTAT);
2418           if (isreadable (adm_name))
2419           {
2420               send_to_server ("Static-directory\012", 0);
2421           }
2422     }
2423     if (supported_request ("Sticky"))
2424     {
2425           FILE *f;
2426           if (dir[0] == '\0')
2427               strcpy (adm_name, CVSADM_TAG);
2428           else
2429               sprintf (adm_name, "%s/%s", dir, CVSADM_TAG);
2430 
2431           f = CVS_FOPEN (adm_name, "r");
2432           if (!f)
2433           {
2434               if (! existence_error (errno))
2435                     error (1, errno, "reading %s", adm_name);
2436           }
2437           else
2438           {
2439               char line[80];
2440               char *nl = NULL;
2441               send_to_server ("Sticky ", 0);
2442               while (fgets (line, sizeof (line), f))
2443               {
2444                     send_to_server (line, 0);
2445                     nl = strchr (line, '\n');
2446                     if (nl)
2447                         break;
2448               }
2449               if (!nl)
2450                 send_to_server ("\012", 1);
2451               if (fclose (f) == EOF)
2452                     error (0, errno, "closing %s", adm_name);
2453           }
2454     }
2455     free (adm_name);
2456     if (last_repos) free (last_repos);
2457     if (last_update_dir) free (last_update_dir);
2458     last_repos = xstrdup (repos);
2459     last_update_dir = xstrdup (update_dir);
2460 }
2461 
2462 
2463 
2464 /* Send a Repository line and set toplevel_repos.  */
2465 void
send_a_repository(const char * dir,const char * repository,const char * update_dir_in)2466 send_a_repository (const char *dir, const char *repository,
2467                    const char *update_dir_in)
2468 {
2469     char *update_dir = xstrdup (update_dir_in);
2470 
2471     if (!toplevel_repos && repository)
2472     {
2473           if (update_dir[0] == '\0'
2474               || (update_dir[0] == '.' && update_dir[1] == '\0'))
2475               toplevel_repos = xstrdup (repository);
2476           else
2477           {
2478               /*
2479                * Get the repository from a CVS/Repository file if update_dir
2480                * is absolute.  This is not correct in general, because
2481                * the CVS/Repository file might not be the top-level one.
2482                * This is for cases like "cvs update /foo/bar" (I'm not
2483                * sure it matters what toplevel_repos we get, but it does
2484                * matter that we don't hit the "internal error" code below).
2485                */
2486               if (update_dir[0] == '/')
2487                     toplevel_repos = Name_Repository (update_dir, update_dir);
2488               else
2489               {
2490                     /*
2491                      * Guess the repository of that directory by looking at a
2492                      * subdirectory and removing as many pathname components
2493                      * as are in update_dir.  I think that will always (or at
2494                      * least almost always) be 1.
2495                      *
2496                      * So this deals with directories which have been
2497                      * renamed, though it doesn't necessarily deal with
2498                      * directories which have been put inside other
2499                      * directories (and cvs invoked on the containing
2500                      * directory).  I'm not sure the latter case needs to
2501                      * work.
2502                      *
2503                      * 21 Aug 1998: Well, Mr. Above-Comment-Writer, it
2504                      * does need to work after all.  When we are using the
2505                      * client in a multi-cvsroot environment, it will be
2506                      * fairly common that we have the above case (e.g.,
2507                      * cwd checked out from one repository but
2508                      * subdirectory checked out from another).  We can't
2509                      * assume that by walking up a directory in our wd we
2510                      * necessarily walk up a directory in the repository.
2511                      */
2512                     /*
2513                      * This gets toplevel_repos wrong for "cvs update ../foo"
2514                      * but I'm not sure toplevel_repos matters in that case.
2515                      */
2516 
2517                     int repository_len, update_dir_len;
2518 
2519                     strip_trailing_slashes (update_dir);
2520 
2521                     repository_len = strlen (repository);
2522                     update_dir_len = strlen (update_dir);
2523 
2524                     /* Try to remove the path components in UPDATE_DIR
2525                    from REPOSITORY.  If the path elements don't exist
2526                    in REPOSITORY, or the removal of those path
2527                    elements mean that we "step above"
2528                    current_parsed_root->directory, set toplevel_repos to
2529                    current_parsed_root->directory. */
2530                     if (repository_len > update_dir_len
2531                         && !strcmp (repository + repository_len - update_dir_len,
2532                                         update_dir)
2533                         /* TOPLEVEL_REPOS shouldn't be above current_parsed_root->directory */
2534                         && ((size_t)(repository_len - update_dir_len)
2535                               > strlen (current_parsed_root->directory)))
2536                     {
2537                         /* The repository name contains UPDATE_DIR.  Set
2538                        toplevel_repos to the repository name without
2539                        UPDATE_DIR. */
2540 
2541                         toplevel_repos = xmalloc (repository_len - update_dir_len);
2542                         /* Note that we don't copy the trailing '/'.  */
2543                         strncpy (toplevel_repos, repository,
2544                                    repository_len - update_dir_len - 1);
2545                         toplevel_repos[repository_len - update_dir_len - 1] = '\0';
2546                     }
2547                     else
2548                     {
2549                         toplevel_repos = xstrdup (current_parsed_root->directory);
2550                     }
2551               }
2552           }
2553     }
2554 
2555     send_repository (dir, repository, update_dir);
2556     free (update_dir);
2557 }
2558 
2559 
2560 
2561 static void
notified_a_file(void * data,List * ent_list,const char * short_pathname,const char * filename)2562 notified_a_file (void *data, List *ent_list, const char *short_pathname,
2563                  const char *filename)
2564 {
2565     FILE *fp;
2566     FILE *newf;
2567     size_t line_len = 8192;
2568     char *line = xmalloc (line_len);
2569     char *cp;
2570     int nread;
2571     int nwritten;
2572     char *p;
2573 
2574     fp = xfopen (CVSADM_NOTIFY, "r");
2575     if (getline (&line, &line_len, fp) < 0)
2576     {
2577           if (feof (fp))
2578               error (0, 0, "cannot read %s: end of file", CVSADM_NOTIFY);
2579           else
2580               error (0, errno, "cannot read %s", CVSADM_NOTIFY);
2581           goto error_exit;
2582     }
2583     cp = strchr (line, '\t');
2584     if (!cp)
2585     {
2586           error (0, 0, "malformed %s file", CVSADM_NOTIFY);
2587           goto error_exit;
2588     }
2589     *cp = '\0';
2590     if (strcmp (filename, line + 1))
2591           error (0, 0, "protocol error: notified %s, expected %s", filename,
2592                  line + 1);
2593 
2594     if (getline (&line, &line_len, fp) < 0)
2595     {
2596           if (feof (fp))
2597           {
2598               free (line);
2599               if (fclose (fp) < 0)
2600                     error (0, errno, "cannot close %s", CVSADM_NOTIFY);
2601               if ( CVS_UNLINK (CVSADM_NOTIFY) < 0)
2602                     error (0, errno, "cannot remove %s", CVSADM_NOTIFY);
2603               return;
2604           }
2605           else
2606           {
2607               error (0, errno, "cannot read %s", CVSADM_NOTIFY);
2608               goto error_exit;
2609           }
2610     }
2611     newf = xfopen (CVSADM_NOTIFYTMP, "w");
2612     if (fputs (line, newf) < 0)
2613     {
2614           error (0, errno, "cannot write %s", CVSADM_NOTIFYTMP);
2615           goto error2;
2616     }
2617     while ((nread = fread (line, 1, line_len, fp)) > 0)
2618     {
2619           p = line;
2620           while ((nwritten = fwrite (p, sizeof *p, nread, newf)) > 0)
2621           {
2622               nread -= nwritten;
2623               p += nwritten;
2624           }
2625           if (ferror (newf))
2626           {
2627               error (0, errno, "cannot write %s", CVSADM_NOTIFYTMP);
2628               goto error2;
2629           }
2630     }
2631     if (ferror (fp))
2632     {
2633           error (0, errno, "cannot read %s", CVSADM_NOTIFY);
2634           goto error2;
2635     }
2636     if (fclose (newf) < 0)
2637     {
2638           error (0, errno, "cannot close %s", CVSADM_NOTIFYTMP);
2639           goto error_exit;
2640     }
2641     free (line);
2642     if (fclose (fp) < 0)
2643     {
2644           error (0, errno, "cannot close %s", CVSADM_NOTIFY);
2645           return;
2646     }
2647 
2648     {
2649         /* In this case, we want rename_file() to ignore noexec. */
2650         int saved_noexec = noexec;
2651         noexec = 0;
2652         rename_file (CVSADM_NOTIFYTMP, CVSADM_NOTIFY);
2653         noexec = saved_noexec;
2654     }
2655 
2656     return;
2657   error2:
2658     (void)fclose (newf);
2659   error_exit:
2660     free (line);
2661     (void)fclose (fp);
2662 }
2663 
2664 
2665 
2666 static void
handle_notified(char * args,size_t len)2667 handle_notified (char *args, size_t len)
2668 {
2669     call_in_directory (args, notified_a_file, NULL);
2670 }
2671 
2672 
2673 
2674 /* The "expanded" modules.  */
2675 static int modules_count;
2676 static int modules_allocated;
2677 static char **modules_vector;
2678 
2679 static void
handle_module_expansion(char * args,size_t len)2680 handle_module_expansion (char *args, size_t len)
2681 {
2682     if (!modules_vector)
2683     {
2684           modules_allocated = 1; /* Small for testing */
2685           modules_vector = xnmalloc (modules_allocated,
2686                                            sizeof (modules_vector[0]));
2687     }
2688     else if (modules_count >= modules_allocated)
2689     {
2690           modules_allocated *= 2;
2691           modules_vector = xnrealloc (modules_vector,
2692                                             modules_allocated,
2693                                             sizeof (modules_vector[0]));
2694     }
2695     modules_vector[modules_count] = xstrdup (args);
2696     ++modules_count;
2697 }
2698 
2699 
2700 
2701 /* Original, not "expanded" modules.  */
2702 static int module_argc;
2703 static char **module_argv;
2704 
2705 void
client_expand_modules(int argc,char ** argv,int local)2706 client_expand_modules (int argc, char **argv, int local)
2707 {
2708     int errs;
2709     int i;
2710 
2711     module_argc = argc;
2712     module_argv = xnmalloc (argc + 1, sizeof (module_argv[0]));
2713     for (i = 0; i < argc; ++i)
2714           module_argv[i] = xstrdup (argv[i]);
2715     module_argv[argc] = NULL;
2716 
2717     for (i = 0; i < argc; ++i)
2718           send_arg (argv[i]);
2719     send_a_repository ("", current_parsed_root->directory, "");
2720 
2721     send_to_server ("expand-modules\012", 0);
2722 
2723     errs = get_server_responses ();
2724 
2725     if (last_repos) free (last_repos);
2726     last_repos = NULL;
2727 
2728     if (last_update_dir) free (last_update_dir);
2729     last_update_dir = NULL;
2730 
2731     if (errs)
2732           error (errs, 0, "cannot expand modules");
2733 }
2734 
2735 
2736 
2737 void
client_send_expansions(int local,char * where,int build_dirs)2738 client_send_expansions (int local, char *where, int build_dirs)
2739 {
2740     int i;
2741     char *argv[1];
2742 
2743     /* Send the original module names.  The "expanded" module name might
2744        not be suitable as an argument to a co request (e.g. it might be
2745        the result of a -d argument in the modules file).  It might be
2746        cleaner if we genuinely expanded module names, all the way to a
2747        local directory and repository, but that isn't the way it works
2748        now.  */
2749     send_file_names (module_argc, module_argv, 0);
2750 
2751     for (i = 0; i < modules_count; ++i)
2752     {
2753           argv[0] = where ? where : modules_vector[i];
2754           if (isfile (argv[0]))
2755               send_files (1, argv, local, 0, build_dirs ? SEND_BUILD_DIRS : 0);
2756     }
2757     send_a_repository ("", current_parsed_root->directory, "");
2758 }
2759 
2760 
2761 
2762 void
client_nonexpanded_setup(void)2763 client_nonexpanded_setup (void)
2764 {
2765     send_a_repository ("", current_parsed_root->directory, "");
2766 }
2767 
2768 
2769 
2770 /* Receive a cvswrappers line from the server; it must be a line
2771    containing an RCS option (e.g., "*.exe   -k 'b'").
2772 
2773    Note that this doesn't try to handle -t/-f options (which are a
2774    whole separate issue which noone has thought much about, as far
2775    as I know).
2776 
2777    We need to know the keyword expansion mode so we know whether to
2778    read the file in text or binary mode.  */
2779 static void
handle_wrapper_rcs_option(char * args,size_t len)2780 handle_wrapper_rcs_option (char *args, size_t len)
2781 {
2782     char *p;
2783 
2784     /* Enforce the notes in cvsclient.texi about how the response is not
2785        as free-form as it looks.  */
2786     p = strchr (args, ' ');
2787     if (!p)
2788           goto handle_error;
2789     if (*++p != '-'
2790           || *++p != 'k'
2791           || *++p != ' '
2792           || *++p != '\'')
2793           goto handle_error;
2794     if (!strchr (p, '\''))
2795           goto handle_error;
2796 
2797     /* Add server-side cvswrappers line to our wrapper list. */
2798     wrap_add (args, 0);
2799     return;
2800  handle_error:
2801     error (0, errno, "protocol error: ignoring invalid wrappers %s", args);
2802 }
2803 
2804 
2805 
2806 
2807 static void
handle_m(char * args,size_t len)2808 handle_m (char *args, size_t len)
2809 {
2810     /* In the case where stdout and stderr point to the same place,
2811        fflushing stderr will make output happen in the correct order.
2812        Often stderr will be line-buffered and this won't be needed,
2813        but not always (is that true?  I think the comment is probably
2814        based on being confused between default buffering between
2815        stdout and stderr.  But I'm not sure).  */
2816     fflush (stderr);
2817     fwrite (args, sizeof *args, len, stdout);
2818     putc ('\n', stdout);
2819 }
2820 
2821 
2822 
2823 static void
handle_mbinary(char * args,size_t len)2824 handle_mbinary (char *args, size_t len)
2825 {
2826     char *size_string;
2827     size_t size;
2828     size_t totalread;
2829     size_t nread;
2830     size_t toread;
2831     char buf[8192];
2832 
2833     /* See comment at handle_m about (non)flush of stderr.  */
2834 
2835     /* Get the size.  */
2836     read_line (&size_string);
2837     size = atoi (size_string);
2838     free (size_string);
2839 
2840     /* OK, now get all the data.  The algorithm here is that we read
2841        as much as the network wants to give us in
2842        try_read_from_server, and then we output it all, and then
2843        repeat, until we get all the data.  */
2844     totalread = 0;
2845     while (totalread < size)
2846     {
2847           toread = size - totalread;
2848           if (toread > sizeof buf)
2849               toread = sizeof buf;
2850 
2851           nread = try_read_from_server (buf, toread);
2852           cvs_output_binary (buf, nread);
2853           totalread += nread;
2854     }
2855 }
2856 
2857 
2858 
2859 static void
handle_e(char * args,size_t len)2860 handle_e (char *args, size_t len)
2861 {
2862     /* In the case where stdout and stderr point to the same place,
2863        fflushing stdout will make output happen in the correct order.  */
2864     fflush (stdout);
2865     fwrite (args, sizeof *args, len, stderr);
2866     putc ('\n', stderr);
2867 }
2868 
2869 
2870 
2871 /*ARGSUSED*/
2872 static void
handle_f(char * args,size_t len)2873 handle_f  (char *args, size_t len)
2874 {
2875     fflush (stderr);
2876 }
2877 
2878 
2879 
2880 static void
handle_mt(char * args,size_t len)2881 handle_mt (char *args, size_t len)
2882 {
2883     char *p;
2884     char *tag = args;
2885     char *text;
2886 
2887     /* See comment at handle_m for more details.  */
2888     fflush (stderr);
2889 
2890     p = strchr (args, ' ');
2891     if (!p)
2892           text = NULL;
2893     else
2894     {
2895           *p++ = '\0';
2896           text = p;
2897     }
2898 
2899     switch (tag[0])
2900     {
2901           case '+':
2902               if (!strcmp (tag, "+updated"))
2903                     updated_seen = 1;
2904               else if (!strcmp (tag, "+importmergecmd"))
2905                     importmergecmd.seen = 1;
2906               break;
2907           case '-':
2908               if (!strcmp (tag, "-updated"))
2909                     updated_seen = 0;
2910               else if (!strcmp (tag, "-importmergecmd"))
2911               {
2912                     char buf[80];
2913 
2914                     /* Now that we have gathered the information, we can
2915                    output the suggested merge command.  */
2916 
2917                     if (importmergecmd.conflicts == 0
2918                         || !importmergecmd.mergetag1
2919                         || !importmergecmd.mergetag2
2920                         || !importmergecmd.repository)
2921                     {
2922                         error (0, 0,
2923                                  "invalid server: incomplete importmergecmd tags");
2924                         break;
2925                     }
2926 
2927                     if (importmergecmd.conflicts == -1)
2928                         sprintf (buf, "\nNo conflicts created by this import.\n");
2929                     else
2930                         sprintf (buf, "\n%d conflicts created by this import.\n",
2931                                    importmergecmd.conflicts);
2932                     cvs_output (buf, 0);
2933                     cvs_output ("Use the following command to help the merge:\n\n",
2934                                   0);
2935                     cvs_output ("\t", 1);
2936                     cvs_output (program_name, 0);
2937                     if (CVSroot_cmdline)
2938                     {
2939                         cvs_output (" -d ", 0);
2940                         cvs_output (CVSroot_cmdline, 0);
2941                     }
2942                     cvs_output (" checkout -j", 0);
2943                     cvs_output (importmergecmd.mergetag1, 0);
2944                     cvs_output (" -j", 0);
2945                     cvs_output (importmergecmd.mergetag2, 0);
2946                     cvs_output (" ", 1);
2947                     cvs_output (importmergecmd.repository, 0);
2948                     cvs_output ("\n\n", 0);
2949 
2950                     /* Clear the static variables so that everything is
2951                    ready for any subsequent importmergecmd tag.  */
2952                     importmergecmd.conflicts = 0;
2953                     free (importmergecmd.mergetag1);
2954                     importmergecmd.mergetag1 = NULL;
2955                     free (importmergecmd.mergetag2);
2956                     importmergecmd.mergetag2 = NULL;
2957                     free (importmergecmd.repository);
2958                     importmergecmd.repository = NULL;
2959 
2960                     importmergecmd.seen = 0;
2961               }
2962               break;
2963           default:
2964               if (updated_seen)
2965               {
2966                     if (!strcmp (tag, "fname"))
2967                     {
2968                         if (updated_fname)
2969                         {
2970                               /* Output the previous message now.  This can happen
2971                                  if there was no Update-existing or other such
2972                                  response, due to the -n global option.  */
2973                               cvs_output ("U ", 0);
2974                               cvs_output (updated_fname, 0);
2975                               cvs_output ("\n", 1);
2976                               free (updated_fname);
2977                         }
2978                         updated_fname = xstrdup (text);
2979                     }
2980                     /* Swallow all other tags.  Either they are extraneous
2981                        or they reflect future extensions that we can
2982                        safely ignore.  */
2983               }
2984               else if (importmergecmd.seen)
2985               {
2986                     if (!strcmp (tag, "conflicts"))
2987                     {
2988                         if (!strcmp (text, "No"))
2989                               importmergecmd.conflicts = -1;
2990                         else
2991                               importmergecmd.conflicts = atoi (text);
2992                     }
2993                     else if (!strcmp (tag, "mergetag1"))
2994                         importmergecmd.mergetag1 = xstrdup (text);
2995                     else if (!strcmp (tag, "mergetag2"))
2996                         importmergecmd.mergetag2 = xstrdup (text);
2997                     else if (!strcmp (tag, "repository"))
2998                         importmergecmd.repository = xstrdup (text);
2999                     /* Swallow all other tags.  Either they are text for
3000                    which we are going to print our own version when we
3001                    see -importmergecmd, or they are future extensions
3002                    we can safely ignore.  */
3003               }
3004               else if (!strcmp (tag, "newline"))
3005                     printf ("\n");
3006               else if (!strcmp (tag, "date"))
3007               {
3008                     char *date = format_date_alloc (text);
3009                     printf ("%s", date);
3010                     free (date);
3011               }
3012               else if (text)
3013                     printf ("%s", text);
3014     }
3015 }
3016 
3017 
3018 
3019 #endif /* CLIENT_SUPPORT */
3020 #if defined(CLIENT_SUPPORT) || defined(SERVER_SUPPORT)
3021 
3022 /* This table must be writeable if the server code is included.  */
3023 struct response responses[] =
3024 {
3025 #ifdef CLIENT_SUPPORT
3026 #define RSP_LINE(n, f, t, s) {n, f, t, s}
3027 #else /* ! CLIENT_SUPPORT */
3028 #define RSP_LINE(n, f, t, s) {n, s}
3029 #endif /* CLIENT_SUPPORT */
3030 
3031     RSP_LINE("ok", handle_ok, response_type_ok, rs_essential),
3032     RSP_LINE("error", handle_error, response_type_error, rs_essential),
3033     RSP_LINE("Valid-requests", handle_valid_requests, response_type_normal,
3034        rs_essential),
3035     RSP_LINE("Force-gzip", handle_force_gzip, response_type_normal,
3036        rs_optional),
3037     RSP_LINE("Referrer", handle_referrer, response_type_normal, rs_optional),
3038     RSP_LINE("Redirect", handle_redirect, response_type_redirect, rs_optional),
3039     RSP_LINE("Checked-in", handle_checked_in, response_type_normal,
3040        rs_essential),
3041     RSP_LINE("New-entry", handle_new_entry, response_type_normal, rs_optional),
3042     RSP_LINE("Checksum", handle_checksum, response_type_normal, rs_optional),
3043     RSP_LINE("Copy-file", handle_copy_file, response_type_normal, rs_optional),
3044     RSP_LINE("Updated", handle_updated, response_type_normal, rs_essential),
3045     RSP_LINE("Created", handle_created, response_type_normal, rs_optional),
3046     RSP_LINE("Update-existing", handle_update_existing, response_type_normal,
3047        rs_optional),
3048     RSP_LINE("Merged", handle_merged, response_type_normal, rs_essential),
3049     RSP_LINE("Patched", handle_patched, response_type_normal, rs_optional),
3050     RSP_LINE("Rcs-diff", handle_rcs_diff, response_type_normal, rs_optional),
3051     RSP_LINE("Mode", handle_mode, response_type_normal, rs_optional),
3052     RSP_LINE("Mod-time", handle_mod_time, response_type_normal, rs_optional),
3053     RSP_LINE("Removed", handle_removed, response_type_normal, rs_essential),
3054     RSP_LINE("Remove-entry", handle_remove_entry, response_type_normal,
3055        rs_optional),
3056     RSP_LINE("Set-static-directory", handle_set_static_directory,
3057        response_type_normal,
3058        rs_optional),
3059     RSP_LINE("Clear-static-directory", handle_clear_static_directory,
3060        response_type_normal,
3061        rs_optional),
3062     RSP_LINE("Set-sticky", handle_set_sticky, response_type_normal,
3063        rs_optional),
3064     RSP_LINE("Clear-sticky", handle_clear_sticky, response_type_normal,
3065        rs_optional),
3066     RSP_LINE("Edit-file", handle_edit_file, response_type_normal,
3067        rs_optional),
3068     RSP_LINE("Template", handle_template, response_type_normal,
3069        rs_optional),
3070     RSP_LINE("Clear-template", handle_clear_template, response_type_normal,
3071        rs_optional),
3072     RSP_LINE("Notified", handle_notified, response_type_normal, rs_optional),
3073     RSP_LINE("Module-expansion", handle_module_expansion, response_type_normal,
3074        rs_optional),
3075     RSP_LINE("Wrapper-rcsOption", handle_wrapper_rcs_option,
3076        response_type_normal,
3077        rs_optional),
3078     RSP_LINE("M", handle_m, response_type_normal, rs_essential),
3079     RSP_LINE("Mbinary", handle_mbinary, response_type_normal, rs_optional),
3080     RSP_LINE("E", handle_e, response_type_normal, rs_essential),
3081     RSP_LINE("F", handle_f, response_type_normal, rs_optional),
3082     RSP_LINE("MT", handle_mt, response_type_normal, rs_optional),
3083     /* Possibly should be response_type_error.  */
3084     RSP_LINE(NULL, NULL, response_type_normal, rs_essential)
3085 
3086 #undef RSP_LINE
3087 };
3088 
3089 #endif /* CLIENT_SUPPORT or SERVER_SUPPORT */
3090 #ifdef CLIENT_SUPPORT
3091 
3092 
3093 
3094 /*
3095  * If LEN is 0, then send_to_server_via() computes string's length itself.
3096  *
3097  * Therefore, pass the real length when transmitting data that might
3098  * contain 0's.
3099  */
3100 void
send_to_server_via(struct buffer * via_buffer,const char * str,size_t len)3101 send_to_server_via (struct buffer *via_buffer, const char *str, size_t len)
3102 {
3103     static int nbytes;
3104 
3105     if (len == 0)
3106           len = strlen (str);
3107 
3108     buf_output (via_buffer, str, len);
3109 
3110     /* There is no reason not to send data to the server, so do it
3111        whenever we've accumulated enough information in the buffer to
3112        make it worth sending.  */
3113     nbytes += len;
3114     if (nbytes >= 2 * BUFFER_DATA_SIZE)
3115     {
3116           int status;
3117 
3118         status = buf_send_output (via_buffer);
3119           if (status != 0)
3120               error (1, status, "error writing to server");
3121           nbytes = 0;
3122     }
3123 }
3124 
3125 
3126 
3127 void
send_to_server(const char * str,size_t len)3128 send_to_server (const char *str, size_t len)
3129 {
3130   send_to_server_via (global_to_server, str, len);
3131 }
3132 
3133 
3134 
3135 /* Read up to LEN bytes from the server.  Returns actual number of
3136    bytes read, which will always be at least one; blocks if there is
3137    no data available at all.  Gives a fatal error on EOF or error.  */
3138 static size_t
try_read_from_server(char * buf,size_t len)3139 try_read_from_server( char *buf, size_t len )
3140 {
3141     int status;
3142     size_t nread;
3143     char *data;
3144 
3145     status = buf_read_data (global_from_server, len, &data, &nread);
3146     if (status != 0)
3147     {
3148           if (status == -1)
3149               error (1, 0,
3150                        "end of file from server (consult above messages if any)");
3151           else if (status == -2)
3152               error (1, 0, "out of memory");
3153           else
3154               error (1, status, "reading from server");
3155     }
3156 
3157     memcpy (buf, data, nread);
3158 
3159     return nread;
3160 }
3161 
3162 
3163 
3164 /*
3165  * Read LEN bytes from the server or die trying.
3166  */
3167 void
read_from_server(char * buf,size_t len)3168 read_from_server (char *buf, size_t len)
3169 {
3170     size_t red = 0;
3171     while (red < len)
3172     {
3173           red += try_read_from_server (buf + red, len - red);
3174           if (red == len)
3175               break;
3176     }
3177 }
3178 
3179 
3180 
3181 /* Get some server responses and process them.
3182  *
3183  * RETURNS
3184  *   0              Success
3185  *   1              Error
3186  *   2              Redirect
3187  */
3188 int
get_server_responses(void)3189 get_server_responses (void)
3190 {
3191     struct response *rs;
3192     do
3193     {
3194           char *cmd;
3195           size_t len;
3196 
3197           len = read_line (&cmd);
3198           for (rs = responses; rs->name; ++rs)
3199               if (!strncmp (cmd, rs->name, strlen (rs->name)))
3200               {
3201                     size_t cmdlen = strlen (rs->name);
3202                     if (cmd[cmdlen] == '\0')
3203                         ;
3204                     else if (cmd[cmdlen] == ' ')
3205                         ++cmdlen;
3206                     else
3207                         /*
3208                          * The first len characters match, but it's a different
3209                          * response.  e.g. the response is "oklahoma" but we
3210                          * matched "ok".
3211                          */
3212                         continue;
3213                     (*rs->func) (cmd + cmdlen, len - cmdlen);
3214                     break;
3215               }
3216           if (!rs->name)
3217               /* It's OK to print just to the first '\0'.  */
3218               /* We might want to handle control characters and the like
3219                  in some other way other than just sending them to stdout.
3220                  One common reason for this error is if people use :ext:
3221                  with a version of rsh which is doing CRLF translation or
3222                  something, and so the client gets "ok^M" instead of "ok".
3223                  Right now that will tend to print part of this error
3224                  message over the other part of it.  It seems like we could
3225                  do better (either in general, by quoting or omitting all
3226                  control characters, and/or specifically, by detecting the CRLF
3227                  case and printing a specific error message).  */
3228               error (0, 0,
3229                        "warning: unrecognized response `%s' from cvs server",
3230                        cmd);
3231           free (cmd);
3232     } while (rs->type == response_type_normal);
3233 
3234     if (updated_fname)
3235     {
3236           /* Output the previous message now.  This can happen
3237              if there was no Update-existing or other such
3238              response, due to the -n global option.  */
3239           cvs_output ("U ", 0);
3240           cvs_output (updated_fname, 0);
3241           cvs_output ("\n", 1);
3242           free (updated_fname);
3243           updated_fname = NULL;
3244     }
3245 
3246     if (rs->type == response_type_redirect) return 2;
3247     if (rs->type == response_type_error) return 1;
3248     if (failure_exit) return 1;
3249     return 0;
3250 }
3251 
3252 
3253 
3254 static inline void
close_connection_to_server(struct buffer ** to,struct buffer ** from)3255 close_connection_to_server (struct buffer **to, struct buffer **from)
3256 {
3257     int status;
3258 
3259     /* First we shut down GLOBAL_TO_SERVER.  That tells the server that its
3260      * input is finished.  It then shuts down the buffer it is sending to us,
3261      * at which point our shut down of GLOBAL_FROM_SERVER will complete.
3262      */
3263 
3264     TRACE (TRACE_FUNCTION, "close_connection_to_server ()");
3265 
3266     status = buf_shutdown (*to);
3267     if (status != 0)
3268           error (0, status, "shutting down buffer to server");
3269     buf_free (*to);
3270     *to = NULL;
3271 
3272     status = buf_shutdown (*from);
3273     if (status != 0)
3274           error (0, status, "shutting down buffer from server");
3275     buf_free (*from);
3276     *from = NULL;
3277 }
3278 
3279 
3280 
3281 /* Get the responses and then close the connection.  */
3282 
3283 /*
3284  * Flag var; we'll set it in start_server() and not one of its
3285  * callees, such as start_rsh_server().  This means that there might
3286  * be a small window between the starting of the server and the
3287  * setting of this var, but all the code in that window shouldn't care
3288  * because it's busy checking return values to see if the server got
3289  * started successfully anyway.
3290  */
3291 int server_started = 0;
3292 
3293 int
get_responses_and_close(void)3294 get_responses_and_close (void)
3295 {
3296     int errs = get_server_responses ();
3297 
3298     /* The following is necessary when working with multiple cvsroots, at least
3299      * with commit.  It used to be buried nicely in do_deferred_progs() before
3300      * that function was removed.  I suspect it wouldn't be necessary if
3301      * call_in_directory() saved its working directory via save_cwd() before
3302      * changing its directory and restored the saved working directory via
3303      * restore_cwd() before exiting.  Of course, calling CVS_CHDIR only once,
3304      * here, may be more efficient.
3305      */
3306     if (toplevel_wd)
3307     {
3308           if (CVS_CHDIR (toplevel_wd) < 0)
3309               error (1, errno, "could not chdir to %s", toplevel_wd);
3310     }
3311 
3312     if (client_prune_dirs)
3313           process_prune_candidates ();
3314 
3315     close_connection_to_server (&global_to_server, &global_from_server);
3316     server_started = 0;
3317 
3318     /* see if we need to sleep before returning to avoid time-stamp races */
3319     if (last_register_time)
3320           sleep_past (last_register_time);
3321 
3322     return errs;
3323 }
3324 
3325 
3326 
3327 bool
supported_request(const char * name)3328 supported_request (const char *name)
3329 {
3330     struct request *rq;
3331 
3332     for (rq = requests; rq->name; rq++)
3333           if (!strcmp (rq->name, name))
3334               return (rq->flags & RQ_SUPPORTED) != 0;
3335     error (1, 0, "internal error: testing support for unknown request?");
3336     /* NOTREACHED */
3337     return 0;
3338 }
3339 
3340 
3341 
3342 #if defined (AUTH_CLIENT_SUPPORT) || defined (SERVER_SUPPORT) || defined (HAVE_KERBEROS) || defined (HAVE_GSSAPI)
3343 
3344 
3345 /* Generic function to do port number lookup tasks.
3346  *
3347  * In order of precedence, will return:
3348  *        getenv (envname), if defined
3349  *        getservbyname (portname), if defined
3350  *        defaultport
3351  */
3352 static int
get_port_number(const char * envname,const char * portname,int defaultport)3353 get_port_number (const char *envname, const char *portname, int defaultport)
3354 {
3355     struct servent *s;
3356     char *port_s;
3357 
3358     if (envname && (port_s = getenv (envname)))
3359     {
3360           int port = atoi (port_s);
3361           if (port <= 0)
3362           {
3363               error (0, 0, "%s must be a positive integer!  If you", envname);
3364               error (0, 0, "are trying to force a connection via rsh, please");
3365               error (0, 0, "put \":server:\" at the beginning of your CVSROOT");
3366               error (1, 0, "variable.");
3367           }
3368           return port;
3369     }
3370     else if (portname && (s = getservbyname (portname, "tcp")))
3371           return ntohs (s->s_port);
3372     else
3373           return defaultport;
3374 }
3375 
3376 
3377 
3378 /* get the port number for a client to connect to based on the port
3379  * and method of a cvsroot_t.
3380  *
3381  * we do this here instead of in parse_cvsroot so that we can keep network
3382  * code confined to a localized area and also to delay the lookup until the
3383  * last possible moment so it remains possible to run cvs client commands that
3384  * skip opening connections to the server (i.e. skip network operations
3385  * entirely)
3386  *
3387  * and yes, I know none of the commands do that now, but here's to planning
3388  * for the future, eh?  cheers.
3389  */
3390 int
get_cvs_port_number(const cvsroot_t * root)3391 get_cvs_port_number (const cvsroot_t *root)
3392 {
3393 
3394     if (root->port) return root->port;
3395 
3396     switch (root->method)
3397     {
3398 # ifdef HAVE_GSSAPI
3399           case gserver_method:
3400 # endif /* HAVE_GSSAPI */
3401 # ifdef AUTH_CLIENT_SUPPORT
3402           case pserver_method:
3403 # endif /* AUTH_CLIENT_SUPPORT */
3404 # if defined (AUTH_CLIENT_SUPPORT) || defined (HAVE_GSSAPI)
3405               return get_port_number ("CVS_CLIENT_PORT", "cvspserver",
3406                                     CVS_AUTH_PORT);
3407 # endif /* defined (AUTH_CLIENT_SUPPORT) || defined (HAVE_GSSAPI) */
3408 # ifdef HAVE_KERBEROS
3409           case kserver_method:
3410               return get_port_number ("CVS_CLIENT_PORT", "cvs", CVS_PORT);
3411 # endif /* HAVE_KERBEROS */
3412           default:
3413               error(1, EINVAL,
3414 "internal error: get_cvs_port_number called for invalid connection method (%s)",
3415                       method_names[root->method]);
3416               break;
3417     }
3418     /* NOTREACHED */
3419     return -1;
3420 }
3421 
3422 
3423 
3424 /* get the port number for a client to connect to based on the proxy port
3425  * of a cvsroot_t.
3426  */
3427 static int
get_proxy_port_number(const cvsroot_t * root)3428 get_proxy_port_number (const cvsroot_t *root)
3429 {
3430 
3431     if (root->proxy_port) return root->proxy_port;
3432 
3433     return get_port_number ("CVS_PROXY_PORT", NULL, CVS_PROXY_PORT);
3434 }
3435 
3436 
3437 
3438 void
make_bufs_from_fds(int tofd,int fromfd,int child_pid,cvsroot_t * root,struct buffer ** to_server_p,struct buffer ** from_server_p,int is_sock)3439 make_bufs_from_fds(int tofd, int fromfd, int child_pid, cvsroot_t *root,
3440                    struct buffer **to_server_p,
3441                    struct buffer **from_server_p, int is_sock)
3442 {
3443 # ifdef NO_SOCKET_TO_FD
3444     if (is_sock)
3445     {
3446           assert (tofd == fromfd);
3447           *to_server_p = socket_buffer_initialize (tofd, 0, NULL);
3448           *from_server_p = socket_buffer_initialize (tofd, 1, NULL);
3449     }
3450     else
3451 # endif /* NO_SOCKET_TO_FD */
3452     {
3453           /* todo: some OS's don't need these calls... */
3454           close_on_exec (tofd);
3455           close_on_exec (fromfd);
3456 
3457           /* SCO 3 and AIX have a nasty bug in the I/O libraries which precludes
3458              fdopening the same file descriptor twice, so dup it if it is the
3459              same.  */
3460           if (tofd == fromfd)
3461           {
3462               fromfd = dup (tofd);
3463               if (fromfd < 0)
3464                     error (1, errno, "cannot dup net connection");
3465           }
3466 
3467           /* These will use binary mode on systems which have it.  */
3468           /*
3469            * Also, we know that from_server is shut down second, so we pass
3470            * child_pid in there.  In theory, it should be stored in both
3471            * buffers with a ref count...
3472            */
3473           *to_server_p = fd_buffer_initialize (tofd, 0, root, false, NULL);
3474           *from_server_p = fd_buffer_initialize (fromfd, child_pid, root,
3475                                                true, NULL);
3476     }
3477 }
3478 #endif /* defined (AUTH_CLIENT_SUPPORT) || defined (SERVER_SUPPORT) || defined (HAVE_KERBEROS) || defined(HAVE_GSSAPI) */
3479 
3480 
3481 
3482 #if defined (AUTH_CLIENT_SUPPORT) || defined(HAVE_GSSAPI)
3483 /* Connect to the authenticating server.
3484 
3485    If VERIFY_ONLY is non-zero, then just verify that the password is
3486    correct and then shutdown the connection.
3487 
3488    If VERIFY_ONLY is 0, then really connect to the server.
3489 
3490    If DO_GSSAPI is non-zero, then we use GSSAPI authentication rather
3491    than the pserver password authentication.
3492 
3493    If we fail to connect or if access is denied, then die with fatal
3494    error.  */
3495 void
connect_to_pserver(cvsroot_t * root,struct buffer ** to_server_p,struct buffer ** from_server_p,int verify_only,int do_gssapi)3496 connect_to_pserver (cvsroot_t *root, struct buffer **to_server_p,
3497                     struct buffer **from_server_p, int verify_only,
3498                     int do_gssapi)
3499 {
3500     int sock;
3501     int port_number,
3502           proxy_port_number = 0; /* Initialize to silence -Wall.  Dumb.  */
3503     union sai {
3504           struct sockaddr_in addr_in;
3505           struct sockaddr addr;
3506     } client_sai;
3507     struct hostent *hostinfo;
3508     struct buffer *to_server, *from_server;
3509 
3510     sock = socket (AF_INET, SOCK_STREAM, 0);
3511     if (sock == -1)
3512           error (1, 0, "cannot create socket: %s", SOCK_STRERROR (SOCK_ERRNO));
3513     port_number = get_cvs_port_number (root);
3514 
3515     /* if we have a proxy connect to that instead */
3516     if (root->proxy_hostname)
3517     {
3518         proxy_port_number = get_proxy_port_number (root);
3519           hostinfo = init_sockaddr (&client_sai.addr_in, root->proxy_hostname,
3520                                   proxy_port_number);
3521         TRACE (TRACE_FUNCTION, "Connecting to %s:%d via proxy %s(%s):%d.",
3522                root->hostname, port_number, root->proxy_hostname,
3523                inet_ntoa (client_sai.addr_in.sin_addr), proxy_port_number);
3524     }
3525     else
3526     {
3527           hostinfo = init_sockaddr (&client_sai.addr_in, root->hostname,
3528                                           port_number);
3529         TRACE (TRACE_FUNCTION, "Connecting to %s(%s):%d.",
3530                root->hostname,
3531                inet_ntoa (client_sai.addr_in.sin_addr), port_number);
3532     }
3533 
3534     if (connect (sock, &client_sai.addr, sizeof (client_sai))
3535           < 0)
3536           error (1, 0, "connect to %s(%s):%d failed: %s",
3537                  root->proxy_hostname ? root->proxy_hostname : root->hostname,
3538                  inet_ntoa (client_sai.addr_in.sin_addr),
3539                  root->proxy_hostname ? proxy_port_number : port_number,
3540                SOCK_STRERROR (SOCK_ERRNO));
3541 
3542     make_bufs_from_fds (sock, sock, 0, root, &to_server, &from_server, 1);
3543 
3544     /* if we have proxy then connect to the proxy first */
3545     if (root->proxy_hostname)
3546     {
3547 #define CONNECT_STRING "CONNECT %s:%d HTTP/1.0\r\n\r\n"
3548           /* Send a "CONNECT" command to proxy: */
3549           char* read_buf;
3550           int codenum;
3551           size_t count;
3552           /* 4 characters for port covered by the length of %s & %d */
3553           char* write_buf = Xasnprintf (NULL, &count, CONNECT_STRING,
3554                                       root->hostname, port_number);
3555           send_to_server_via (to_server, write_buf, count);
3556 
3557           /* Wait for HTTP status code, bail out if you don't get back a 2xx
3558          * code.
3559          */
3560           read_line_via (from_server, to_server, &read_buf);
3561           sscanf (read_buf, "%s %d", write_buf, &codenum);
3562 
3563           if ((codenum / 100) != 2)
3564               error (1, 0, "proxy server %s:%d does not support http tunnelling",
3565                        root->proxy_hostname, proxy_port_number);
3566           free (read_buf);
3567           free (write_buf);
3568 
3569           /* Skip through remaining part of MIME header, recv_line
3570            consumes the trailing \n */
3571           while (read_line_via (from_server, to_server, &read_buf) > 0)
3572           {
3573               if (read_buf[0] == '\r' || read_buf[0] == 0)
3574               {
3575                     free (read_buf);
3576                     break;
3577               }
3578               free (read_buf);
3579           }
3580     }
3581 
3582     auth_server (root, to_server, from_server, verify_only, do_gssapi,
3583                  hostinfo);
3584 
3585     if (verify_only)
3586     {
3587           int status;
3588 
3589           status = buf_shutdown (to_server);
3590           if (status != 0)
3591               error (0, status, "shutting down buffer to server");
3592           buf_free (to_server);
3593           to_server = NULL;
3594 
3595           status = buf_shutdown (from_server);
3596           if (status != 0)
3597               error (0, status, "shutting down buffer from server");
3598           buf_free (from_server);
3599           from_server = NULL;
3600 
3601           /* Don't need to set server_started = 0 since we don't set it to 1
3602            * until returning from this call.
3603            */
3604     }
3605     else
3606     {
3607           *to_server_p = to_server;
3608           *from_server_p = from_server;
3609     }
3610 
3611     return;
3612 }
3613 
3614 
3615 
3616 static void
auth_server(cvsroot_t * root,struct buffer * to_server,struct buffer * from_server,int verify_only,int do_gssapi,struct hostent * hostinfo)3617 auth_server (cvsroot_t *root, struct buffer *to_server,
3618              struct buffer *from_server, int verify_only, int do_gssapi,
3619              struct hostent *hostinfo)
3620 {
3621     char *username = NULL;              /* the username we use to connect */
3622     char no_passwd = 0;                           /* gets set if no password found */
3623 
3624     /* Run the authorization mini-protocol before anything else. */
3625     if (do_gssapi)
3626     {
3627 # ifdef HAVE_GSSAPI
3628           int fd = buf_get_fd (to_server);
3629           struct stat s;
3630 
3631           if ((fd < 0) || (fstat (fd, &s) < 0) || !S_ISSOCK(s.st_mode))
3632           {
3633               error (1, 0,
3634                    "gserver currently only enabled for socket connections");
3635           }
3636 
3637           if (! connect_to_gserver (root, fd, hostinfo))
3638           {
3639               error (1, 0,
3640                         "authorization failed: server %s rejected access to %s",
3641                         root->hostname, root->directory);
3642           }
3643 # else /* ! HAVE_GSSAPI */
3644           error (1, 0,
3645 "INTERNAL ERROR: This client does not support GSSAPI authentication");
3646 # endif /* HAVE_GSSAPI */
3647     }
3648     else /* ! do_gssapi */
3649     {
3650 # ifdef AUTH_CLIENT_SUPPORT
3651           char *begin      = NULL;
3652           char *password   = NULL;
3653           char *end        = NULL;
3654 
3655           if (verify_only)
3656           {
3657               begin = "BEGIN VERIFICATION REQUEST";
3658               end   = "END VERIFICATION REQUEST";
3659           }
3660           else
3661           {
3662               begin = "BEGIN AUTH REQUEST";
3663               end   = "END AUTH REQUEST";
3664           }
3665 
3666           /* Get the password, probably from ~/.cvspass. */
3667           password = get_cvs_password ();
3668           username = root->username ? root->username : getcaller();
3669 
3670           /* Send the empty string by default.  This is so anonymous CVS
3671              access doesn't require client to have done "cvs login". */
3672           if (!password)
3673           {
3674               no_passwd = 1;
3675               password = scramble ("");
3676           }
3677 
3678           /* Announce that we're starting the authorization protocol. */
3679           send_to_server_via(to_server, begin, 0);
3680           send_to_server_via(to_server, "\012", 1);
3681 
3682           /* Send the data the server needs. */
3683           send_to_server_via(to_server, root->directory, 0);
3684           send_to_server_via(to_server, "\012", 1);
3685           send_to_server_via(to_server, username, 0);
3686           send_to_server_via(to_server, "\012", 1);
3687           send_to_server_via(to_server, password, 0);
3688           send_to_server_via(to_server, "\012", 1);
3689 
3690           /* Announce that we're ending the authorization protocol. */
3691           send_to_server_via(to_server, end, 0);
3692           send_to_server_via(to_server, "\012", 1);
3693 
3694         /* Paranoia. */
3695         memset (password, 0, strlen (password));
3696 # else /* ! AUTH_CLIENT_SUPPORT */
3697           error (1, 0, "INTERNAL ERROR: This client does not support pserver authentication");
3698 # endif /* AUTH_CLIENT_SUPPORT */
3699     } /* if (do_gssapi) */
3700 
3701     {
3702           char *read_buf;
3703 
3704           /* Loop, getting responses from the server.  */
3705           while (1)
3706           {
3707               read_line_via (from_server, to_server, &read_buf);
3708 
3709               if (!strcmp (read_buf, "I HATE YOU"))
3710               {
3711                     /* Authorization not granted.
3712                      *
3713                      * This is a little confusing since we can reach this while
3714                      * loop in GSSAPI mode, but if GSSAPI authentication failed,
3715                      * we already jumped to the rejected label (there is no case
3716                      * where the connect_to_gserver function can return 1 and we
3717                      * will not receive "I LOVE YOU" from the server, barring
3718                      * broken connections and garbled messages, of course).  The
3719                      * GSSAPI case is also the case where username can be NULL
3720                      * since username is initialized in the !gssapi section.
3721                      *
3722                      * i.e. This is a pserver specific error message and should be
3723                      * since GSSAPI doesn't use username.
3724                      */
3725                     error (0, 0,
3726 "authorization failed: server %s rejected access to %s for user %s",
3727                            root->hostname, root->directory,
3728                            username ? username : "(null)");
3729 
3730                     /* Output a special error message if authentication was attempted
3731                     with no password -- the user should be made aware that they may
3732                     have missed a step. */
3733                     if (no_passwd)
3734                     {
3735                         error (0, 0,
3736 "used empty password; try \"cvs login\" with a real password");
3737                     }
3738                     exit (EXIT_FAILURE);
3739               }
3740               else if (!strncmp (read_buf, "E ", 2))
3741               {
3742                     fprintf (stderr, "%s\n", read_buf + 2);
3743 
3744                     /* Continue with the authentication protocol.  */
3745               }
3746               else if (!strncmp (read_buf, "error ", 6))
3747               {
3748                     char *p;
3749 
3750                     /* First skip the code.  */
3751                     p = read_buf + 6;
3752                     while (*p != ' ' && *p != '\0')
3753                         ++p;
3754 
3755                     /* Skip the space that follows the code.  */
3756                     if (*p == ' ')
3757                         ++p;
3758 
3759                     /* Now output the text.  */
3760                     fprintf (stderr, "%s\n", p);
3761                     exit (EXIT_FAILURE);
3762               }
3763               else if (!strcmp (read_buf, "I LOVE YOU"))
3764               {
3765                     free (read_buf);
3766                     break;
3767               }
3768               else
3769               {
3770                     error (1, 0,
3771                            "unrecognized auth response from %s: %s",
3772                            root->hostname, read_buf);
3773               }
3774               free (read_buf);
3775           }
3776     }
3777 }
3778 #endif /* defined (AUTH_CLIENT_SUPPORT) || defined(HAVE_GSSAPI) */
3779 
3780 
3781 
3782 #if defined (CLIENT_SUPPORT) || defined (SERVER_SUPPORT)
3783 /*
3784  * Connect to a forked server process.
3785  */
3786 static void
connect_to_forked_server(cvsroot_t * root,struct buffer ** to_server_p,struct buffer ** from_server_p)3787 connect_to_forked_server (cvsroot_t *root, struct buffer **to_server_p,
3788                           struct buffer **from_server_p)
3789 {
3790     int tofd, fromfd;
3791     int child_pid;
3792 
3793     /* This is pretty simple.  All we need to do is choose the correct
3794        cvs binary and call piped_child. */
3795 
3796      char *command[3];
3797 
3798     command[0] = (root->cvs_server
3799                       ? root->cvs_server : getenv ("CVS_SERVER"));
3800     if (!command[0])
3801 # ifdef SERVER_SUPPORT
3802         /* FIXME:
3803          * I'm casting out the const below because I know that piped_child, the
3804          * only function we pass COMMAND to, accepts COMMAND as a
3805          * (char *const *) and won't alter it, and we don't alter it in this
3806          * function.  This is yucky, there should be a way to declare COMMAND
3807          * such that this casting isn't needed, but I don't know how.  If I
3808          * declare it as (const char *command[]), the compiler complains about
3809          * an incompatible arg 1 being passed to piped_child and if I declare
3810          * it as (char *const command[3]), then the compiler complains when I
3811          * assign values to command[i].
3812          */
3813           command[0] = (char *)program_path;
3814 # else /* SERVER_SUPPORT */
3815     {
3816           error( 0, 0, "You must set the CVS_SERVER environment variable when" );
3817           error( 0, 0, "using the :fork: access method." );
3818           error( 1, 0, "This CVS was not compiled with server support." );
3819     }
3820 # endif /* SERVER_SUPPORT */
3821 
3822     command[1] = "server";
3823     command[2] = NULL;
3824 
3825     TRACE (TRACE_FUNCTION, "Forking server: %s %s",
3826              command[0] ? command[0] : "(null)", command[1]);
3827 
3828     child_pid = piped_child (command, &tofd, &fromfd, false);
3829     if (child_pid < 0)
3830           error (1, 0, "could not fork server process");
3831 
3832     make_bufs_from_fds (tofd, fromfd, child_pid, root, to_server_p,
3833                         from_server_p, 0);
3834 }
3835 #endif /* CLIENT_SUPPORT || SERVER_SUPPORT */
3836 
3837 
3838 
3839 static int
send_variable_proc(Node * node,void * closure)3840 send_variable_proc (Node *node, void *closure)
3841 {
3842     send_to_server ("Set ", 0);
3843     send_to_server (node->key, 0);
3844     send_to_server ("=", 1);
3845     send_to_server (node->data, 0);
3846     send_to_server ("\012", 1);
3847     return 0;
3848 }
3849 
3850 
3851 
3852 /* Open up the connection to the server and perform any necessary
3853  * authentication.
3854  */
3855 void
open_connection_to_server(cvsroot_t * root,struct buffer ** to_server_p,struct buffer ** from_server_p)3856 open_connection_to_server (cvsroot_t *root, struct buffer **to_server_p,
3857                            struct buffer **from_server_p)
3858 {
3859     /* Note that generally speaking we do *not* fall back to a different
3860        way of connecting if the first one does not work.  This is slow
3861        (*really* slow on a 14.4kbps link); the clean way to have a CVS
3862        which supports several ways of connecting is with access methods.  */
3863 
3864     TRACE (TRACE_FUNCTION, "open_connection_to_server (%s)", root->original);
3865 
3866     switch (root->method)
3867     {
3868           case pserver_method:
3869 #ifdef AUTH_CLIENT_SUPPORT
3870               /* Toss the return value.  It will die with an error message if
3871                * anything goes wrong anyway.
3872                */
3873               connect_to_pserver (root, to_server_p, from_server_p, 0, 0);
3874 #else /* AUTH_CLIENT_SUPPORT */
3875               error (0, 0, "CVSROOT is set for a pserver access method but your");
3876               error (1, 0, "CVS executable doesn't support it.");
3877 #endif /* AUTH_CLIENT_SUPPORT */
3878               break;
3879 
3880           case kserver_method:
3881 #if HAVE_KERBEROS
3882               start_kerberos4_server (root, to_server_p,
3883                                     from_server_p);
3884 #else /* !HAVE_KERBEROS */
3885               error (0, 0,
3886                      "CVSROOT is set for a kerberos access method but your");
3887               error (1, 0, "CVS executable doesn't support it.");
3888 #endif /* HAVE_KERBEROS */
3889               break;
3890 
3891           case gserver_method:
3892 #ifdef HAVE_GSSAPI
3893               /* GSSAPI authentication is handled by the pserver.  */
3894               connect_to_pserver (root, to_server_p, from_server_p, 0, 1);
3895 #else /* !HAVE_GSSAPI */
3896               error (0, 0, "CVSROOT is set for a GSSAPI access method but your");
3897               error (1, 0, "CVS executable doesn't support it.");
3898 #endif /* HAVE_GSSAPI */
3899               break;
3900 
3901           case ext_method:
3902 #ifdef NO_EXT_METHOD
3903               error (0, 0, ":ext: method not supported by this port of CVS");
3904               error (1, 0, "try :server: instead");
3905 #else /* ! NO_EXT_METHOD */
3906               start_rsh_server (root, to_server_p,
3907                               from_server_p);
3908 #endif /* NO_EXT_METHOD */
3909               break;
3910 
3911           case server_method:
3912 #ifdef START_SERVER
3913               {
3914               int tofd, fromfd;
3915               START_SERVER (&tofd, &fromfd, getcaller (),
3916                                 root->username,
3917                           root->hostname,
3918                                 root->directory);
3919 # ifdef START_SERVER_RETURNS_SOCKET
3920               make_bufs_from_fds (tofd, fromfd, 0, root, to_server_p,
3921                                 from_server_p, 1);
3922 # else /* ! START_SERVER_RETURNS_SOCKET */
3923               make_bufs_from_fds (tofd, fromfd, 0, root, to_server_p,
3924                                 from_server_p, 0);
3925 # endif /* START_SERVER_RETURNS_SOCKET */
3926               }
3927 #else /* ! START_SERVER */
3928               /* FIXME: It should be possible to implement this portably,
3929                  like pserver, which would get rid of the duplicated code
3930                  in {vms,windows-NT,...}/startserver.c.  */
3931               error (1, 0,
3932 "the :server: access method is not supported by this port of CVS");
3933 #endif /* START_SERVER */
3934               break;
3935 
3936         case fork_method:
3937               connect_to_forked_server (root, to_server_p, from_server_p);
3938               break;
3939 
3940           default:
3941               error (1, 0,
3942                    "(start_server internal error): unknown access method");
3943               break;
3944     }
3945 
3946     /* "Hi, I'm Darlene and I'll be your server tonight..." */
3947     server_started = 1;
3948 }
3949 
3950 
3951 
3952 /* Contact the server.  */
3953 void
start_server(void)3954 start_server (void)
3955 {
3956     bool rootless;
3957     int status;
3958     bool have_global;
3959 
3960     do
3961     {
3962           /* Clear our static variables for this invocation. */
3963           if (toplevel_repos)
3964               free (toplevel_repos);
3965           toplevel_repos = NULL;
3966 
3967           open_connection_to_server (current_parsed_root, &global_to_server,
3968                                            &global_from_server);
3969           setup_logfiles ("CVS_CLIENT_LOG", &global_to_server,
3970                               &global_from_server);
3971 
3972           /* Clear static variables.  */
3973           if (toplevel_repos)
3974           {
3975               free (toplevel_repos);
3976               toplevel_repos = NULL;
3977           }
3978           if (last_repos)
3979           {
3980               free (last_repos);
3981               last_repos = NULL;
3982           }
3983           if (last_update_dir)
3984           {
3985               free (last_update_dir);
3986               last_update_dir = NULL;
3987           }
3988           stored_checksum_valid = 0;
3989           if (stored_mode)
3990           {
3991               free (stored_mode);
3992               stored_mode = NULL;
3993           }
3994 
3995           rootless = !strcmp (cvs_cmd_name, "init");
3996           if (!rootless)
3997           {
3998               send_to_server ("Root ", 0);
3999               send_to_server (current_parsed_root->directory, 0);
4000               send_to_server ("\012", 1);
4001           }
4002 
4003           {
4004               struct response *rs;
4005               bool suppress_redirect = !current_parsed_root->redirect;
4006 
4007               send_to_server ("Valid-responses", 0);
4008 
4009               for (rs = responses; rs->name; ++rs)
4010               {
4011                     if (suppress_redirect && !strcmp (rs->name, "Redirect"))
4012                         continue;
4013 
4014                     send_to_server (" ", 0);
4015                     send_to_server (rs->name, 0);
4016               }
4017               send_to_server ("\012", 1);
4018           }
4019           send_to_server ("valid-requests\012", 0);
4020 
4021           if (get_server_responses ())
4022               exit (EXIT_FAILURE);
4023 
4024           have_global = supported_request ("Global_option");
4025 
4026           /* Encryption needs to come before compression.  Good encryption can
4027            * render compression useless in the other direction.
4028            */
4029           if (cvsencrypt && !rootless)
4030           {
4031 #ifdef ENCRYPTION
4032               /* Turn on encryption before turning on compression.  We do
4033                * not want to try to compress the encrypted stream.  Instead,
4034                * we want to encrypt the compressed stream.  If we can't turn
4035                * on encryption, bomb out; don't let the user think the data
4036                * is being encrypted when it is not.
4037                */
4038 #  ifdef HAVE_KERBEROS
4039               if (current_parsed_root->method == kserver_method)
4040               {
4041                     if (!supported_request ("Kerberos-encrypt"))
4042                         error (1, 0, "This server does not support encryption");
4043                     send_to_server ("Kerberos-encrypt\012", 0);
4044                  initialize_kerberos4_encryption_buffers (&global_to_server,
4045                                                                       &global_from_server);
4046               }
4047               else
4048 #  endif /* HAVE_KERBEROS */
4049 #  ifdef HAVE_GSSAPI
4050               if (current_parsed_root->method == gserver_method)
4051               {
4052                     if (!supported_request ("Gssapi-encrypt"))
4053                         error (1, 0, "This server does not support encryption");
4054                     send_to_server ("Gssapi-encrypt\012", 0);
4055                     initialize_gssapi_buffers (&global_to_server,
4056                                                      &global_from_server);
4057                     cvs_gssapi_encrypt = 1;
4058               }
4059               else
4060 #  endif /* HAVE_GSSAPI */
4061                     error (1, 0,
4062 "Encryption is only supported when using GSSAPI or Kerberos");
4063 #else /* ! ENCRYPTION */
4064               error (1, 0, "This client does not support encryption");
4065 #endif /* ! ENCRYPTION */
4066           }
4067 
4068           /* Send this before compression to enable supression of the
4069            * "Forcing compression level Z" messages.
4070            */
4071           if (quiet)
4072           {
4073               if (have_global)
4074               {
4075                     send_to_server ("Global_option -q\012", 0);
4076               }
4077               else
4078                     error (1, 0,
4079                            "This server does not support the global -q option.");
4080           }
4081           if (really_quiet)
4082           {
4083               if (have_global)
4084               {
4085                     send_to_server ("Global_option -Q\012", 0);
4086               }
4087               else
4088                     error (1, 0,
4089                            "This server does not support the global -Q option.");
4090           }
4091 
4092           /* Compression needs to come before any of the rooted requests to
4093            * work with compression limits.
4094            */
4095           if (!rootless && (gzip_level || force_gzip))
4096           {
4097               if (supported_request ("Gzip-stream"))
4098               {
4099                     char *gzip_level_buf = Xasprintf ("%d", gzip_level);
4100                     send_to_server ("Gzip-stream ", 0);
4101                     send_to_server (gzip_level_buf, 0);
4102                     free (gzip_level_buf);
4103                     send_to_server ("\012", 1);
4104 
4105                     /* All further communication with the server will be
4106                        compressed.  */
4107 
4108                     global_to_server =
4109                         compress_buffer_initialize (global_to_server, 0,
4110                                                           gzip_level, NULL);
4111                     global_from_server =
4112                         compress_buffer_initialize (global_from_server, 1,
4113                                                             gzip_level, NULL);
4114               }
4115 #ifndef NO_CLIENT_GZIP_PROCESS
4116               else if (supported_request ("gzip-file-contents"))
4117               {
4118                     char *gzip_level_buf = Xasprintf ("%d", gzip_level);
4119                     send_to_server ("gzip-file-contents ", 0);
4120                     send_to_server (gzip_level_buf, 0);
4121                     free (gzip_level_buf);
4122                     send_to_server ("\012", 1);
4123 
4124                     file_gzip_level = gzip_level;
4125               }
4126 #endif
4127               else
4128               {
4129                     fprintf (stderr, "server doesn't support gzip-file-contents\n");
4130                     /* Setting gzip_level to 0 prevents us from giving the
4131                        error twice if update has to contact the server again
4132                        to fetch unpatchable files.  */
4133                     gzip_level = 0;
4134               }
4135           }
4136 
4137           if (client_referrer && supported_request ("Referrer"))
4138           {
4139               send_to_server ("Referrer ", 0);
4140               send_to_server (client_referrer->original, 0);
4141               send_to_server ("\012", 0);
4142           }
4143 
4144           /* FIXME: I think we should still be sending this for init.  */
4145           if (!rootless && supported_request ("Command-prep"))
4146           {
4147               send_to_server ("Command-prep ", 0);
4148               send_to_server (cvs_cmd_name, 0);
4149               send_to_server ("\012", 0);
4150               status = get_server_responses ();
4151               if (status == 1) exit (EXIT_FAILURE);
4152               if (status == 2) close_connection_to_server (&global_to_server,
4153                                                                        &global_from_server);
4154           }
4155           else status = 0;
4156     } while (status == 2);
4157 
4158 
4159     /*
4160      * Now handle global options.
4161      *
4162      * -H, -f, -d, -e should be handled OK locally.
4163      *
4164      * -b we ignore (treating it as a server installation issue).
4165      * FIXME: should be an error message.
4166      *
4167      * -v we print local version info; FIXME: Add a protocol request to get
4168      * the version from the server so we can print that too.
4169      *
4170      * -l -t -r -w -q -n and -Q need to go to the server.
4171      */
4172     if (noexec)
4173     {
4174           if (have_global)
4175           {
4176               send_to_server ("Global_option -n\012", 0);
4177           }
4178           else
4179               error (1, 0,
4180                        "This server does not support the global -n option.");
4181     }
4182     if (!cvswrite)
4183     {
4184           if (have_global)
4185           {
4186               send_to_server ("Global_option -r\012", 0);
4187           }
4188           else
4189               error (1, 0,
4190                        "This server does not support the global -r option.");
4191     }
4192     if (trace)
4193     {
4194           if (have_global)
4195           {
4196               int count = trace;
4197               while (count--) send_to_server ("Global_option -t\012", 0);
4198           }
4199           else
4200               error (1, 0,
4201                        "This server does not support the global -t option.");
4202     }
4203 
4204     /* Find out about server-side cvswrappers.  An extra network
4205        turnaround for cvs import seems to be unavoidable, unless we
4206        want to add some kind of client-side place to configure which
4207        filenames imply binary.  For cvs add, we could avoid the
4208        problem by keeping a copy of the wrappers in CVSADM (the main
4209        reason to bother would be so we could make add work without
4210        contacting the server, I suspect).  */
4211 
4212     if (!strcmp (cvs_cmd_name, "import") || !strcmp (cvs_cmd_name, "add"))
4213     {
4214           if (supported_request ("wrapper-sendme-rcsOptions"))
4215           {
4216               int err;
4217               send_to_server ("wrapper-sendme-rcsOptions\012", 0);
4218               err = get_server_responses ();
4219               if (err != 0)
4220                     error (err, 0, "error reading from server");
4221           }
4222     }
4223 
4224     if (cvsauthenticate && ! cvsencrypt && !rootless)
4225     {
4226           /* Turn on authentication after turning on compression, so
4227              that we can compress the authentication information.  We
4228              assume that encrypted data is always authenticated--the
4229              ability to decrypt the data stream is itself a form of
4230              authentication.  */
4231 #ifdef HAVE_GSSAPI
4232           if (current_parsed_root->method == gserver_method)
4233           {
4234               if (! supported_request ("Gssapi-authenticate"))
4235                     error (1, 0,
4236                            "This server does not support stream authentication");
4237               send_to_server ("Gssapi-authenticate\012", 0);
4238               initialize_gssapi_buffers(&global_to_server, &global_from_server);
4239 
4240           }
4241           else
4242               error (1, 0, "Stream authentication is only supported when using GSSAPI");
4243 #else /* ! HAVE_GSSAPI */
4244           error (1, 0, "This client does not support stream authentication");
4245 #endif /* ! HAVE_GSSAPI */
4246     }
4247 
4248     /* If "Set" is not supported, just silently fail to send the variables.
4249        Users with an old server should get a useful error message when it
4250        fails to recognize the ${=foo} syntax.  This way if someone uses
4251        several servers, some of which are new and some old, they can still
4252        set user variables in their .cvsrc without trouble.  */
4253     if (supported_request ("Set"))
4254           walklist (variable_list, send_variable_proc, NULL);
4255 }
4256 
4257 
4258 
4259 /* Send an argument STRING.  */
4260 void
send_arg(const char * string)4261 send_arg (const char *string)
4262 {
4263     const char *p = string;
4264 
4265     send_to_server ("Argument ", 0);
4266 
4267     while (*p)
4268     {
4269           if (*p == '\n')
4270               send_to_server ("\012Argumentx ", 0);
4271           else
4272               send_to_server (p, 1);
4273           ++p;
4274     }
4275     send_to_server ("\012", 1);
4276 }
4277 
4278 
4279 
4280 /* VERS->OPTIONS specifies whether the file is binary or not.  NOTE: BEFORE
4281    using any other fields of the struct vers, we would need to fix
4282    client_process_import_file to set them up.  */
4283 static void
send_modified(const char * file,const char * short_pathname,Vers_TS * vers)4284 send_modified (const char *file, const char *short_pathname, Vers_TS *vers)
4285 {
4286     /* File was modified, send it.  */
4287     struct stat sb;
4288     int fd;
4289     unsigned char *buf;
4290     char *mode_string;
4291     size_t bufsize;
4292     int bin;
4293 
4294     TRACE (TRACE_FUNCTION, "Sending file `%s' to server", file);
4295 
4296     /* Don't think we can assume fstat exists.  */
4297     if (stat (file, &sb) < 0)
4298           error (1, errno, "reading %s", short_pathname);
4299 
4300     mode_string = mode_to_string (sb.st_mode);
4301 
4302     /* Beware: on systems using CRLF line termination conventions,
4303        the read and write functions will convert CRLF to LF, so the
4304        number of characters read is not the same as sb.st_size.  Text
4305        files should always be transmitted using the LF convention, so
4306        we don't want to disable this conversion.  */
4307     bufsize = sb.st_size;
4308     buf = xmalloc (bufsize);
4309 
4310     /* Is the file marked as containing binary data by the "-kb" flag?
4311        If so, make sure to open it in binary mode: */
4312 
4313     if (vers && vers->options)
4314       bin = !strcmp (vers->options, "-kb");
4315     else
4316       bin = 0;
4317 
4318 #ifdef BROKEN_READWRITE_CONVERSION
4319     if (!bin)
4320     {
4321           /* If only stdio, not open/write/etc., do text/binary
4322              conversion, use convert_file which can compensate
4323              (FIXME: we could just use stdio instead which would
4324              avoid the whole problem).  */
4325           char *tfile = Xasprintf ("%s.CVSBFCTMP", file);
4326           convert_file (file, O_RDONLY,
4327                           tfile, O_WRONLY | O_CREAT | O_TRUNC | OPEN_BINARY);
4328           fd = CVS_OPEN (tfile, O_RDONLY | OPEN_BINARY);
4329           if (fd < 0)
4330               error (1, errno, "reading %s", short_pathname);
4331           free (tfile);
4332     }
4333     else
4334           fd = CVS_OPEN (file, O_RDONLY | OPEN_BINARY);
4335 #else
4336     fd = CVS_OPEN (file, O_RDONLY | (bin ? OPEN_BINARY : 0));
4337 #endif
4338 
4339     if (fd < 0)
4340           error (1, errno, "reading %s", short_pathname);
4341 
4342     if (file_gzip_level && sb.st_size > 100)
4343     {
4344           size_t newsize = 0;
4345 
4346           if (read_and_gzip (fd, short_pathname, &buf,
4347                                  &bufsize, &newsize,
4348                                  file_gzip_level))
4349               error (1, 0, "aborting due to compression error");
4350 
4351           if (close (fd) < 0)
4352               error (0, errno, "warning: can't close %s", short_pathname);
4353 
4354         {
4355           char tmp[80];
4356 
4357             send_to_server ("Modified ", 0);
4358             send_to_server (file, 0);
4359             send_to_server ("\012", 1);
4360             send_to_server (mode_string, 0);
4361             send_to_server ("\012z", 2);
4362             sprintf (tmp, "%lu\n", (unsigned long) newsize);
4363             send_to_server (tmp, 0);
4364 
4365           send_to_server (buf, newsize);
4366         }
4367     }
4368     else
4369     {
4370           int newsize;
4371 
4372         {
4373               unsigned char *bufp = buf;
4374               int len;
4375 
4376               /* FIXME: This is gross.  It assumes that we might read
4377                  less than st_size bytes (true on NT), but not more.
4378                  Instead of this we should just be reading a block of
4379                  data (e.g. 8192 bytes), writing it to the network, and
4380                  so on until EOF.  */
4381               while ((len = read (fd, bufp, (buf + sb.st_size) - bufp)) > 0)
4382                   bufp += len;
4383 
4384               if (len < 0)
4385                   error (1, errno, "reading %s", short_pathname);
4386 
4387               newsize = bufp - buf;
4388           }
4389           if (close (fd) < 0)
4390               error (0, errno, "warning: can't close %s", short_pathname);
4391 
4392         {
4393           char tmp[80];
4394 
4395             send_to_server ("Modified ", 0);
4396             send_to_server (file, 0);
4397             send_to_server ("\012", 1);
4398             send_to_server (mode_string, 0);
4399             send_to_server ("\012", 1);
4400           sprintf (tmp, "%lu\012", (unsigned long) newsize);
4401           send_to_server (tmp, 0);
4402         }
4403 #ifdef BROKEN_READWRITE_CONVERSION
4404           if (!bin)
4405           {
4406               char *tfile = Xasprintf ("%s.CVSBFCTMP", file);
4407               if (CVS_UNLINK (tfile) < 0)
4408                     error (0, errno, "warning: can't remove temp file %s", tfile);
4409               free (tfile);
4410           }
4411 #endif
4412 
4413           /*
4414            * Note that this only ends with a newline if the file ended with
4415            * one.
4416            */
4417           if (newsize > 0)
4418               send_to_server (buf, newsize);
4419     }
4420     free (buf);
4421     free (mode_string);
4422 }
4423 
4424 
4425 
4426 /* The address of an instance of this structure is passed to
4427    send_fileproc, send_filesdoneproc, and send_direntproc, as the
4428    callerdat parameter.  */
4429 struct send_data
4430 {
4431     /* Each of the following flags are zero for clear or nonzero for set.  */
4432     int build_dirs;
4433     int force;
4434     int no_contents;
4435     int backup_modified;
4436 };
4437 
4438 /* Deal with one file.  */
4439 static int
send_fileproc(void * callerdat,struct file_info * finfo)4440 send_fileproc (void *callerdat, struct file_info *finfo)
4441 {
4442     struct send_data *args = callerdat;
4443     Vers_TS *vers;
4444     struct file_info xfinfo;
4445     /* File name to actually use.  Might differ in case from
4446        finfo->file.  */
4447     const char *filename;
4448 
4449     send_a_repository ("", finfo->repository, finfo->update_dir);
4450 
4451     xfinfo = *finfo;
4452     xfinfo.repository = NULL;
4453     xfinfo.rcs = NULL;
4454     vers = Version_TS (&xfinfo, NULL, NULL, NULL, 0, 0);
4455 
4456     if (vers->entdata)
4457           filename = vers->entdata->user;
4458     else
4459           filename = finfo->file;
4460 
4461     if (vers->vn_user)
4462     {
4463           /* The Entries request.  */
4464           send_to_server ("Entry /", 0);
4465           send_to_server (filename, 0);
4466           send_to_server ("/", 0);
4467           send_to_server (vers->vn_user, 0);
4468           send_to_server ("/", 0);
4469           if (vers->ts_conflict)
4470           {
4471               if (vers->ts_user && !strcmp (vers->ts_conflict, vers->ts_user))
4472                     send_to_server ("+=", 0);
4473               else
4474                     send_to_server ("+modified", 0);
4475           }
4476           send_to_server ("/", 0);
4477           send_to_server (vers->entdata ? vers->entdata->options : vers->options,
4478                               0);
4479           send_to_server ("/", 0);
4480           if (vers->entdata && vers->entdata->tag)
4481           {
4482               send_to_server ("T", 0);
4483               send_to_server (vers->entdata->tag, 0);
4484           }
4485           else if (vers->entdata && vers->entdata->date)
4486           {
4487               send_to_server ("D", 0);
4488               send_to_server (vers->entdata->date, 0);
4489           }
4490           send_to_server ("\012", 1);
4491     }
4492     else
4493     {
4494           /* It seems a little silly to re-read this on each file, but
4495              send_dirent_proc doesn't get called if filenames are specified
4496              explicitly on the command line.  */
4497           wrap_add_file (CVSDOTWRAPPER, 1);
4498 
4499           if (wrap_name_has (filename, WRAP_RCSOPTION))
4500           {
4501               /* No "Entry", but the wrappers did give us a kopt so we better
4502                  send it with "Kopt".  As far as I know this only happens
4503                  for "cvs add".  Question: is there any reason why checking
4504                  for options from wrappers isn't done in Version_TS?
4505 
4506                  Note: it might have been better to just remember all the
4507                  kopts on the client side, rather than send them to the server,
4508                  and have it send us back the same kopts.  But that seemed like
4509                  a bigger change than I had in mind making now.  */
4510 
4511               if (supported_request ("Kopt"))
4512               {
4513                     char *opt;
4514 
4515                     send_to_server ("Kopt ", 0);
4516                     opt = wrap_rcsoption (filename, 1);
4517                     send_to_server (opt, 0);
4518                     send_to_server ("\012", 1);
4519                     free (opt);
4520               }
4521               else
4522                     error (0, 0, "\
4523 warning: ignoring -k options due to server limitations");
4524           }
4525     }
4526 
4527     if (!vers->ts_user)
4528     {
4529           /*
4530            * Do we want to print "file was lost" like normal CVS?
4531            * Would it always be appropriate?
4532            */
4533           /* File no longer exists.  Don't do anything, missing files
4534              just happen.  */
4535     }
4536     else if (!vers->ts_rcs || args->force
4537                || strcmp (vers->ts_conflict
4538                             ? vers->ts_conflict : vers->ts_rcs, vers->ts_user)
4539                || (vers->ts_conflict && !strcmp (cvs_cmd_name, "diff")))
4540     {
4541           if (args->no_contents
4542               && supported_request ("Is-modified"))
4543           {
4544               send_to_server ("Is-modified ", 0);
4545               send_to_server (filename, 0);
4546               send_to_server ("\012", 1);
4547           }
4548           else
4549               send_modified (filename, finfo->fullname, vers);
4550 
4551         if (args->backup_modified)
4552         {
4553             char *bakname;
4554             bakname = backup_file (filename, vers->vn_user);
4555             /* This behavior is sufficiently unexpected to
4556                justify overinformativeness, I think. */
4557             if (! really_quiet)
4558                 printf ("(Locally modified %s moved to %s)\n",
4559                         filename, bakname);
4560             free (bakname);
4561         }
4562     }
4563     else
4564     {
4565           send_to_server ("Unchanged ", 0);
4566           send_to_server (filename, 0);
4567           send_to_server ("\012", 1);
4568     }
4569 
4570     /* if this directory has an ignore list, add this file to it */
4571     if (ignlist)
4572     {
4573           Node *p;
4574 
4575           p = getnode ();
4576           p->type = FILES;
4577           p->key = xstrdup (finfo->file);
4578           (void) addnode (ignlist, p);
4579     }
4580 
4581     freevers_ts (&vers);
4582     return 0;
4583 }
4584 
4585 
4586 
4587 static void
send_ignproc(const char * file,const char * dir)4588 send_ignproc (const char *file, const char *dir)
4589 {
4590     if (ign_inhibit_server || !supported_request ("Questionable"))
4591     {
4592           if (dir[0] != '\0')
4593               (void) printf ("? %s/%s\n", dir, file);
4594           else
4595               (void) printf ("? %s\n", file);
4596     }
4597     else
4598     {
4599           send_to_server ("Questionable ", 0);
4600           send_to_server (file, 0);
4601           send_to_server ("\012", 1);
4602     }
4603 }
4604 
4605 
4606 
4607 static int
send_filesdoneproc(void * callerdat,int err,const char * repository,const char * update_dir,List * entries)4608 send_filesdoneproc (void *callerdat, int err, const char *repository,
4609                     const char *update_dir, List *entries)
4610 {
4611     /* if this directory has an ignore list, process it then free it */
4612     if (ignlist)
4613     {
4614           ignore_files (ignlist, entries, update_dir, send_ignproc);
4615           dellist (&ignlist);
4616     }
4617 
4618     return err;
4619 }
4620 
4621 
4622 
4623 /*
4624  * send_dirent_proc () is called back by the recursion processor before a
4625  * sub-directory is processed for update.
4626  * A return code of 0 indicates the directory should be
4627  * processed by the recursion code.  A return of non-zero indicates the
4628  * recursion code should skip this directory.
4629  *
4630  */
4631 static Dtype
send_dirent_proc(void * callerdat,const char * dir,const char * repository,const char * update_dir,List * entries)4632 send_dirent_proc (void *callerdat, const char *dir, const char *repository,
4633                   const char *update_dir, List *entries)
4634 {
4635     struct send_data *args = callerdat;
4636     int dir_exists;
4637     char *cvsadm_name;
4638 
4639     if (ignore_directory (update_dir))
4640     {
4641           /* print the warm fuzzy message */
4642           if (!quiet)
4643               error (0, 0, "Ignoring %s", update_dir);
4644         return R_SKIP_ALL;
4645     }
4646 
4647     /*
4648      * If the directory does not exist yet (e.g. "cvs update -d foo"),
4649      * no need to send any files from it.  If the directory does not
4650      * have a CVS directory, then we pretend that it does not exist.
4651      * Otherwise, we will fail when trying to open the Entries file.
4652      * This case will happen when checking out a module defined as
4653      * ``-a .''.
4654      */
4655     cvsadm_name = Xasprintf ("%s/%s", dir, CVSADM);
4656     dir_exists = isdir (cvsadm_name);
4657     free (cvsadm_name);
4658 
4659     /*
4660      * If there is an empty directory (e.g. we are doing `cvs add' on a
4661      * newly-created directory), the server still needs to know about it.
4662      */
4663 
4664     if (dir_exists)
4665     {
4666           /*
4667            * Get the repository from a CVS/Repository file whenever possible.
4668            * The repository variable is wrong if the names in the local
4669            * directory don't match the names in the repository.
4670            */
4671           char *repos = Name_Repository (dir, update_dir);
4672           send_a_repository (dir, repos, update_dir);
4673           free (repos);
4674 
4675           /* initialize the ignore list for this directory */
4676           ignlist = getlist ();
4677     }
4678     else
4679     {
4680           /* It doesn't make sense to send a non-existent directory,
4681              because there is no way to get the correct value for
4682              the repository (I suppose maybe via the expand-modules
4683              request).  In the case where the "obvious" choice for
4684              repository is correct, the server can figure out whether
4685              to recreate the directory; in the case where it is wrong
4686              (that is, does not match what modules give us), we might as
4687              well just fail to recreate it.
4688 
4689              Checking for noexec is a kludge for "cvs -n add dir".  */
4690           /* Don't send a non-existent directory unless we are building
4691            new directories (build_dirs is true).  Otherwise, CVS may
4692            see a D line in an Entries file, and recreate a directory
4693            which the user removed by hand.  */
4694           if (args->build_dirs && noexec)
4695               send_a_repository (dir, repository, update_dir);
4696     }
4697 
4698     return dir_exists ? R_PROCESS : R_SKIP_ALL;
4699 }
4700 
4701 
4702 
4703 /*
4704  * send_dirleave_proc () is called back by the recursion code upon leaving
4705  * a directory.  All it does is delete the ignore list if it hasn't already
4706  * been done (by send_filesdone_proc).
4707  */
4708 /* ARGSUSED */
4709 static int
send_dirleave_proc(void * callerdat,const char * dir,int err,const char * update_dir,List * entries)4710 send_dirleave_proc (void *callerdat, const char *dir, int err,
4711                     const char *update_dir, List *entries )
4712 {
4713 
4714     /* Delete the ignore list if it hasn't already been done.  */
4715     if (ignlist)
4716           dellist (&ignlist);
4717     return err;
4718 }
4719 
4720 
4721 
4722 /*
4723  * Send each option in an array to the server, one by one.
4724  * argv might be "--foo=bar",  "-C", "5", "-y".
4725  */
4726 
4727 void
send_options(int argc,char * const * argv)4728 send_options (int argc, char * const *argv)
4729 {
4730     int i;
4731     for (i = 0; i < argc; i++)
4732           send_arg (argv[i]);
4733 }
4734 
4735 
4736 
4737 /* Send the names of all the argument files to the server.  */
4738 void
send_file_names(int argc,char ** argv,unsigned int flags)4739 send_file_names (int argc, char **argv, unsigned int flags)
4740 {
4741     int i;
4742 
4743     /* The fact that we do this here as well as start_recursion is a bit
4744        of a performance hit.  Perhaps worth cleaning up someday.  */
4745     if (flags & SEND_EXPAND_WILD)
4746           expand_wild (argc, argv, &argc, &argv);
4747 
4748     for (i = 0; i < argc; ++i)
4749     {
4750           char buf[1];
4751           char *p;
4752 #ifdef FILENAMES_CASE_INSENSITIVE
4753           char *line = NULL;
4754 #endif /* FILENAMES_CASE_INSENSITIVE */
4755 
4756           if (arg_should_not_be_sent_to_server (argv[i]))
4757               continue;
4758 
4759 #ifdef FILENAMES_CASE_INSENSITIVE
4760           /* We want to send the path as it appears in the
4761              CVS/Entries files.  We put this inside an ifdef
4762              to avoid doing all these system calls in
4763              cases where fncmp is just strcmp anyway.  */
4764           /* The isdir (CVSADM) check could more gracefully be replaced
4765              with a way of having Entries_Open report back the
4766              error to us and letting us ignore existence_error.
4767              Or some such.  */
4768           {
4769               List *stack;
4770               size_t line_len = 0;
4771               char *q, *r;
4772               struct saved_cwd sdir;
4773 
4774               /* Split the argument onto the stack.  */
4775               stack = getlist();
4776               r = xstrdup (argv[i]);
4777             /* It's okay to discard the const from the last_component return
4778              * below since we know we passed in an arg that was not const.
4779              */
4780               while ((q = (char *)last_component (r)) != r)
4781               {
4782                     push (stack, xstrdup (q));
4783                     *--q = '\0';
4784               }
4785               push (stack, r);
4786 
4787               /* Normalize the path into outstr. */
4788               save_cwd (&sdir);
4789               while (q = pop (stack))
4790               {
4791                     Node *node = NULL;
4792                   if (isdir (CVSADM))
4793                     {
4794                         List *entries;
4795 
4796                         /* Note that if we are adding a directory,
4797                            the following will read the entry
4798                            that we just wrote there, that is, we
4799                            will get the case specified on the
4800                            command line, not the case of the
4801                            directory in the filesystem.  This
4802                            is correct behavior.  */
4803                         entries = Entries_Open (0, NULL);
4804                         node = findnode_fn (entries, q);
4805                         if (node)
4806                         {
4807                               /* Add the slash unless this is our first element. */
4808                               if (line_len)
4809                                   xrealloc_and_strcat (&line, &line_len, "/");
4810                               xrealloc_and_strcat (&line, &line_len, node->key);
4811                               delnode (node);
4812                         }
4813                         Entries_Close (entries);
4814                     }
4815 
4816                     /* If node is still NULL then we either didn't find CVSADM or
4817                      * we didn't find an entry there.
4818                      */
4819                     if (!node)
4820                     {
4821                         /* Add the slash unless this is our first element. */
4822                         if (line_len)
4823                               xrealloc_and_strcat (&line, &line_len, "/");
4824                         xrealloc_and_strcat (&line, &line_len, q);
4825                         break;
4826                     }
4827 
4828                     /* And descend the tree. */
4829                     if (isdir (q))
4830                         CVS_CHDIR (q);
4831                     free (q);
4832               }
4833               restore_cwd (&sdir);
4834               free_cwd (&sdir);
4835 
4836               /* Now put everything we didn't find entries for back on. */
4837               while (q = pop (stack))
4838               {
4839                     if (line_len)
4840                         xrealloc_and_strcat (&line, &line_len, "/");
4841                     xrealloc_and_strcat (&line, &line_len, q);
4842                     free (q);
4843               }
4844 
4845               p = line;
4846 
4847               dellist (&stack);
4848           }
4849 #else /* !FILENAMES_CASE_INSENSITIVE */
4850           p = argv[i];
4851 #endif /* FILENAMES_CASE_INSENSITIVE */
4852 
4853           send_to_server ("Argument ", 0);
4854 
4855           while (*p)
4856           {
4857               if (*p == '\n')
4858               {
4859                     send_to_server ("\012Argumentx ", 0);
4860               }
4861               else if (ISSLASH (*p))
4862               {
4863                     buf[0] = '/';
4864                     send_to_server (buf, 1);
4865               }
4866               else
4867               {
4868                     buf[0] = *p;
4869                     send_to_server (buf, 1);
4870               }
4871               ++p;
4872           }
4873           send_to_server ("\012", 1);
4874 #ifdef FILENAMES_CASE_INSENSITIVE
4875           free (line);
4876 #endif /* FILENAMES_CASE_INSENSITIVE */
4877     }
4878 
4879     if (flags & SEND_EXPAND_WILD)
4880     {
4881           int i;
4882           for (i = 0; i < argc; ++i)
4883               free (argv[i]);
4884           free (argv);
4885     }
4886 }
4887 
4888 
4889 
4890 /* Calculate and send max-dotdot to the server */
4891 static void
send_max_dotdot(argc,argv)4892 send_max_dotdot (argc, argv)
4893     int argc;
4894     char **argv;
4895 {
4896     int i;
4897     int level = 0;
4898     int max_level = 0;
4899 
4900     /* Send Max-dotdot if needed.  */
4901     for (i = 0; i < argc; ++i)
4902     {
4903         level = pathname_levels (argv[i]);
4904           if (level > 0)
4905           {
4906             if (!uppaths) uppaths = getlist();
4907               push_string (uppaths, xstrdup (argv[i]));
4908           }
4909         if (level > max_level)
4910             max_level = level;
4911     }
4912 
4913     if (max_level > 0)
4914     {
4915         if (supported_request ("Max-dotdot"))
4916         {
4917             char buf[10];
4918             sprintf (buf, "%d", max_level);
4919 
4920             send_to_server ("Max-dotdot ", 0);
4921             send_to_server (buf, 0);
4922             send_to_server ("\012", 1);
4923         }
4924         else
4925         {
4926             error (1, 0,
4927 "backreference in path (`..') not supported by old (pre-Max-dotdot) servers");
4928         }
4929     }
4930 }
4931 
4932 
4933 
4934 /* Send Repository, Modified and Entry.  argc and argv contain only
4935   the files to operate on (or empty for everything), not options.
4936   local is nonzero if we should not recurse (-l option).  flags &
4937   SEND_BUILD_DIRS is nonzero if nonexistent directories should be
4938   sent.  flags & SEND_FORCE is nonzero if we should send unmodified
4939   files to the server as though they were modified.  flags &
4940   SEND_NO_CONTENTS means that this command only needs to know
4941   _whether_ a file is modified, not the contents.  Also sends Argument
4942   lines for argc and argv, so should be called after options are sent.  */
4943 void
send_files(int argc,char ** argv,int local,int aflag,unsigned int flags)4944 send_files (int argc, char **argv, int local, int aflag, unsigned int flags)
4945 {
4946     struct send_data args;
4947     int err;
4948 
4949     send_max_dotdot (argc, argv);
4950 
4951     /*
4952      * aflag controls whether the tag/date is copied into the vers_ts.
4953      * But we don't actually use it, so I don't think it matters what we pass
4954      * for aflag here.
4955      */
4956     args.build_dirs = flags & SEND_BUILD_DIRS;
4957     args.force = flags & SEND_FORCE;
4958     args.no_contents = flags & SEND_NO_CONTENTS;
4959     args.backup_modified = flags & BACKUP_MODIFIED_FILES;
4960     err = start_recursion
4961           (send_fileproc, send_filesdoneproc, send_dirent_proc,
4962          send_dirleave_proc, &args, argc, argv, local, W_LOCAL, aflag,
4963          CVS_LOCK_NONE, NULL, 0, NULL);
4964     if (err)
4965           exit (EXIT_FAILURE);
4966     if (!toplevel_repos)
4967           /*
4968            * This happens if we are not processing any files,
4969            * or for checkouts in directories without any existing stuff
4970            * checked out.  The following assignment is correct for the
4971            * latter case; I don't think toplevel_repos matters for the
4972            * former.
4973            */
4974           toplevel_repos = xstrdup (current_parsed_root->directory);
4975     send_repository ("", toplevel_repos, ".");
4976 }
4977 
4978 
4979 
4980 void
client_import_setup(char * repository)4981 client_import_setup (char *repository)
4982 {
4983     if (!toplevel_repos)                /* should always be true */
4984         send_a_repository ("", repository, "");
4985 }
4986 
4987 
4988 
4989 /*
4990  * Process the argument import file.
4991  */
4992 int
client_process_import_file(char * message,char * vfile,char * vtag,int targc,char * targv[],char * repository,int all_files_binary,int modtime)4993 client_process_import_file (char *message, char *vfile, char *vtag, int targc,
4994                             char *targv[], char *repository,
4995                             int all_files_binary,
4996                             int modtime /* Nonzero for "import -d".  */ )
4997 {
4998     char *update_dir;
4999     char *fullname;
5000     Vers_TS vers;
5001 
5002     assert (toplevel_repos);
5003 
5004     if (strncmp (repository, toplevel_repos, strlen (toplevel_repos)))
5005           error (1, 0,
5006                  "internal error: pathname `%s' doesn't specify file in `%s'",
5007                  repository, toplevel_repos);
5008 
5009     if (!strcmp (repository, toplevel_repos))
5010     {
5011           update_dir = "";
5012           fullname = xstrdup (vfile);
5013     }
5014     else
5015     {
5016           update_dir = repository + strlen (toplevel_repos) + 1;
5017 
5018           fullname = Xasprintf ("%s/%s", update_dir, vfile);
5019     }
5020 
5021     send_a_repository ("", repository, update_dir);
5022     if (all_files_binary)
5023           vers.options = xstrdup ("-kb");
5024     else
5025           vers.options = wrap_rcsoption (vfile, 1);
5026 
5027     if (vers.options)
5028     {
5029           if (supported_request ("Kopt"))
5030           {
5031               send_to_server ("Kopt ", 0);
5032               send_to_server (vers.options, 0);
5033               send_to_server ("\012", 1);
5034           }
5035           else
5036               error (0, 0,
5037                        "warning: ignoring -k options due to server limitations");
5038     }
5039     if (modtime)
5040     {
5041           if (supported_request ("Checkin-time"))
5042           {
5043               struct stat sb;
5044               char *rcsdate;
5045               char netdate[MAXDATELEN];
5046 
5047               if (stat (vfile, &sb) < 0)
5048                     error (1, errno, "cannot stat %s", fullname);
5049               rcsdate = date_from_time_t (sb.st_mtime);
5050               date_to_internet (netdate, rcsdate);
5051               free (rcsdate);
5052 
5053               send_to_server ("Checkin-time ", 0);
5054               send_to_server (netdate, 0);
5055               send_to_server ("\012", 1);
5056           }
5057           else
5058               error (0, 0,
5059                        "warning: ignoring -d option due to server limitations");
5060     }
5061     send_modified (vfile, fullname, &vers);
5062     if (vers.options)
5063           free (vers.options);
5064     free (fullname);
5065     return 0;
5066 }
5067 
5068 
5069 
5070 void
client_import_done(void)5071 client_import_done (void)
5072 {
5073     if (!toplevel_repos)
5074           /*
5075            * This happens if we are not processing any files,
5076            * or for checkouts in directories without any existing stuff
5077            * checked out.  The following assignment is correct for the
5078            * latter case; I don't think toplevel_repos matters for the
5079            * former.
5080            */
5081         /* FIXME: "can't happen" now that we call client_import_setup
5082              at the beginning.  */
5083           toplevel_repos = xstrdup (current_parsed_root->directory);
5084     send_repository ("", toplevel_repos, ".");
5085 }
5086 
5087 
5088 
5089 void
client_notify(const char * repository,const char * update_dir,const char * filename,int notif_type,const char * val)5090 client_notify (const char *repository, const char *update_dir,
5091                const char *filename, int notif_type, const char *val)
5092 {
5093     char buf[2];
5094 
5095     send_a_repository ("", repository, update_dir);
5096     send_to_server ("Notify ", 0);
5097     send_to_server (filename, 0);
5098     send_to_server ("\012", 1);
5099     buf[0] = notif_type;
5100     buf[1] = '\0';
5101     send_to_server (buf, 1);
5102     send_to_server ("\t", 1);
5103     send_to_server (val, 0);
5104 }
5105 
5106 
5107 
5108 /*
5109  * Send an option with an argument, dealing correctly with newlines in
5110  * the argument.  If ARG is NULL, forget the whole thing.
5111  */
5112 void
option_with_arg(const char * option,const char * arg)5113 option_with_arg (const char *option, const char *arg)
5114 {
5115     if (!arg)
5116           return;
5117 
5118     send_to_server ("Argument ", 0);
5119     send_to_server (option, 0);
5120     send_to_server ("\012", 1);
5121 
5122     send_arg (arg);
5123 }
5124 
5125 
5126 
5127 /* Send a date to the server.  The input DATE is in RCS format.
5128    The time will be GMT.
5129 
5130    We then convert that to the format required in the protocol
5131    (including the "-D" option) and send it.  According to
5132    cvsclient.texi, RFC 822/1123 format is preferred.  */
5133 void
client_senddate(const char * date)5134 client_senddate (const char *date)
5135 {
5136     char buf[MAXDATELEN];
5137 
5138     date_to_internet (buf, date);
5139     option_with_arg ("-D", buf);
5140 }
5141 
5142 
5143 
5144 void
send_init_command(void)5145 send_init_command (void)
5146 {
5147     /* This is here because we need the current_parsed_root->directory variable.  */
5148     send_to_server ("init ", 0);
5149     send_to_server (current_parsed_root->directory, 0);
5150     send_to_server ("\012", 0);
5151 }
5152 
5153 
5154 
5155 #if defined AUTH_CLIENT_SUPPORT || defined HAVE_KERBEROS || defined HAVE_GSSAPI
5156 
5157 struct hostent *
init_sockaddr(struct sockaddr_in * name,char * hostname,unsigned int port)5158 init_sockaddr (struct sockaddr_in *name, char *hostname, unsigned int port)
5159 {
5160     struct hostent *hostinfo;
5161     unsigned short shortport = port;
5162 
5163     memset (name, 0, sizeof (*name));
5164     name->sin_family = AF_INET;
5165     name->sin_port = htons (shortport);
5166     hostinfo = gethostbyname (hostname);
5167     if (!hostinfo)
5168     {
5169           fprintf (stderr, "Unknown host %s.\n", hostname);
5170           exit (EXIT_FAILURE);
5171     }
5172     name->sin_addr = *(struct in_addr *) hostinfo->h_addr;
5173     return hostinfo;
5174 }
5175 
5176 #endif /* defined AUTH_CLIENT_SUPPORT || defined HAVE_KERBEROS
5177           * || defined HAVE_GSSAPI
5178           */
5179 
5180 #endif /* CLIENT_SUPPORT */
5181