/* * Copyright (C) 1996-2002,2007,2009 Michael R. Elkins * Copyright (C) 1999-2005 Thomas Roessler * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* * This file contains routines specific to MH and ``maildir'' style * mailboxes. */ #if HAVE_CONFIG_H # include "config.h" #endif #include "mutt.h" #include "mailbox.h" #include "mx.h" #include "copy.h" #include "sort.h" #if USE_HCACHE #include "hcache.h" #endif #include "mutt_curses.h" #include #include #include #include #include #include #include #include #include #include #include #include #if HAVE_SYS_TIME_H #include #endif #define INS_SORT_THRESHOLD 6 struct maildir { HEADER *h; char *canon_fname; unsigned header_parsed:1; #ifdef HAVE_DIRENT_D_INO ino_t inode; #endif /* HAVE_DIRENT_D_INO */ struct maildir *next; }; struct mh_sequences { int max; short *flags; }; struct mh_data { time_t mtime_cur; mode_t mh_umask; }; /* mh_sequences support */ #define MH_SEQ_UNSEEN (1 << 0) #define MH_SEQ_REPLIED (1 << 1) #define MH_SEQ_FLAGGED (1 << 2) static inline struct mh_data *mh_data (CONTEXT *ctx) { return (struct mh_data*)ctx->data; } static void mhs_alloc (struct mh_sequences *mhs, int i) { int j; int newmax; if (i > mhs->max || !mhs->flags) { newmax = i + 128; j = mhs->flags ? mhs->max + 1 : 0; safe_realloc (&mhs->flags, sizeof (mhs->flags[0]) * (newmax + 1)); while (j <= newmax) mhs->flags[j++] = 0; mhs->max = newmax; } } static void mhs_free_sequences (struct mh_sequences *mhs) { FREE (&mhs->flags); } static short mhs_check (struct mh_sequences *mhs, int i) { if (!mhs->flags || i > mhs->max) return 0; else return mhs->flags[i]; } static short mhs_set (struct mh_sequences *mhs, int i, short f) { mhs_alloc (mhs, i); mhs->flags[i] |= f; return mhs->flags[i]; } #if 0 /* unused */ static short mhs_unset (struct mh_sequences *mhs, int i, short f) { mhs_alloc (mhs, i); mhs->flags[i] &= ~f; return mhs->flags[i]; } #endif static int mh_read_token (char *t, int *first, int *last) { char *p; if ((p = strchr (t, '-'))) { *p++ = '\0'; if (mutt_atoi (t, first) < 0 || mutt_atoi (t, last) < 0) return -1; } else { if (mutt_atoi (t, first) < 0) return -1; *last = *first; } return 0; } static int mh_read_sequences (struct mh_sequences *mhs, const char *path) { FILE *fp; int line = 1; char *buff = NULL; char *t; size_t sz = 0; short f; int first, last, rc; char pathname[_POSIX_PATH_MAX]; snprintf (pathname, sizeof (pathname), "%s/.mh_sequences", path); if (!(fp = fopen (pathname, "r"))) return 0; /* yes, ask callers to silently ignore the error */ while ((buff = mutt_read_line (buff, &sz, fp, &line, 0))) { if (!(t = strtok (buff, " \t:"))) continue; if (!mutt_strcmp (t, MhUnseen)) f = MH_SEQ_UNSEEN; else if (!mutt_strcmp (t, MhFlagged)) f = MH_SEQ_FLAGGED; else if (!mutt_strcmp (t, MhReplied)) f = MH_SEQ_REPLIED; else /* unknown sequence */ continue; while ((t = strtok (NULL, " \t:"))) { if (mh_read_token (t, &first, &last) < 0) { mhs_free_sequences (mhs); rc = -1; goto out; } for (; first <= last; first++) mhs_set (mhs, first, f); } } rc = 0; out: FREE (&buff); safe_fclose (&fp); return 0; } static inline mode_t mh_umask (CONTEXT* ctx) { struct stat st; struct mh_data* data = mh_data (ctx); if (data && data->mh_umask) return data->mh_umask; if (stat (ctx->path, &st)) { dprint (1, (debugfile, "stat failed on %s\n", ctx->path)); return 077; } return 0777 & ~st.st_mode; } int mh_buffy (const char *path) { int i, r = 0; struct mh_sequences mhs; memset (&mhs, 0, sizeof (mhs)); if (mh_read_sequences (&mhs, path) < 0) return 0; for (i = 0; !r && i <= mhs.max; i++) if (mhs_check (&mhs, i) & MH_SEQ_UNSEEN) r = 1; return r; } static int mh_mkstemp (CONTEXT * dest, FILE ** fp, char **tgt) { int fd; char path[_POSIX_PATH_MAX]; mode_t omask; omask = umask (mh_umask (dest)); FOREVER { snprintf (path, _POSIX_PATH_MAX, "%s/.mutt-%s-%d-%d", dest->path, NONULL (Hostname), (int) getpid (), Counter++); if ((fd = open (path, O_WRONLY | O_EXCL | O_CREAT, 0666)) == -1) { if (errno != EEXIST) { mutt_perror (path); umask (omask); return -1; } } else { *tgt = safe_strdup (path); break; } } umask (omask); if ((*fp = fdopen (fd, "w")) == NULL) { FREE (tgt); /* __FREE_CHECKED__ */ close (fd); unlink (path); return (-1); } return 0; } static void mhs_write_one_sequence (FILE * fp, struct mh_sequences *mhs, short f, const char *tag) { int i; int first, last; fprintf (fp, "%s:", tag); first = -1; last = -1; for (i = 0; i <= mhs->max; i++) { if ((mhs_check (mhs, i) & f)) { if (first < 0) first = i; else last = i; } else if (first >= 0) { if (last < 0) fprintf (fp, " %d", first); else fprintf (fp, " %d-%d", first, last); first = -1; last = -1; } } if (first >= 0) { if (last < 0) fprintf (fp, " %d", first); else fprintf (fp, " %d-%d", first, last); } fputc ('\n', fp); } /* XXX - we don't currently remove deleted messages from sequences we don't know. Should we? */ static void mh_update_sequences (CONTEXT * ctx) { FILE *ofp, *nfp; char sequences[_POSIX_PATH_MAX]; char *tmpfname; char *buff = NULL; char *p; size_t s; int l = 0; int i; int unseen = 0; int flagged = 0; int replied = 0; char seq_unseen[STRING]; char seq_replied[STRING]; char seq_flagged[STRING]; struct mh_sequences mhs; memset (&mhs, 0, sizeof (mhs)); snprintf (seq_unseen, sizeof (seq_unseen), "%s:", NONULL (MhUnseen)); snprintf (seq_replied, sizeof (seq_replied), "%s:", NONULL (MhReplied)); snprintf (seq_flagged, sizeof (seq_flagged), "%s:", NONULL (MhFlagged)); if (mh_mkstemp (ctx, &nfp, &tmpfname) != 0) { /* error message? */ return; } snprintf (sequences, sizeof (sequences), "%s/.mh_sequences", ctx->path); /* first, copy unknown sequences */ if ((ofp = fopen (sequences, "r"))) { while ((buff = mutt_read_line (buff, &s, ofp, &l, 0))) { if (!mutt_strncmp (buff, seq_unseen, mutt_strlen (seq_unseen))) continue; if (!mutt_strncmp (buff, seq_flagged, mutt_strlen (seq_flagged))) continue; if (!mutt_strncmp (buff, seq_replied, mutt_strlen (seq_replied))) continue; fprintf (nfp, "%s\n", buff); } } safe_fclose (&ofp); /* now, update our unseen, flagged, and replied sequences */ for (l = 0; l < ctx->msgcount; l++) { if (ctx->hdrs[l]->deleted) continue; if ((p = strrchr (ctx->hdrs[l]->path, '/'))) p++; else p = ctx->hdrs[l]->path; if (mutt_atoi (p, &i) < 0) continue; if (!ctx->hdrs[l]->read) { mhs_set (&mhs, i, MH_SEQ_UNSEEN); unseen++; } if (ctx->hdrs[l]->flagged) { mhs_set (&mhs, i, MH_SEQ_FLAGGED); flagged++; } if (ctx->hdrs[l]->replied) { mhs_set (&mhs, i, MH_SEQ_REPLIED); replied++; } } /* write out the new sequences */ if (unseen) mhs_write_one_sequence (nfp, &mhs, MH_SEQ_UNSEEN, NONULL (MhUnseen)); if (flagged) mhs_write_one_sequence (nfp, &mhs, MH_SEQ_FLAGGED, NONULL (MhFlagged)); if (replied) mhs_write_one_sequence (nfp, &mhs, MH_SEQ_REPLIED, NONULL (MhReplied)); mhs_free_sequences (&mhs); /* try to commit the changes - no guarantee here */ safe_fclose (&nfp); unlink (sequences); if (safe_rename (tmpfname, sequences) != 0) { /* report an error? */ unlink (tmpfname); } FREE (&tmpfname); } static void mh_sequences_add_one (CONTEXT * ctx, int n, short unseen, short flagged, short replied) { short unseen_done = 0; short flagged_done = 0; short replied_done = 0; FILE *ofp = NULL, *nfp = NULL; char *tmpfname; char sequences[_POSIX_PATH_MAX]; char seq_unseen[STRING]; char seq_replied[STRING]; char seq_flagged[STRING]; char *buff = NULL; int line; size_t sz; if (mh_mkstemp (ctx, &nfp, &tmpfname) == -1) return; snprintf (seq_unseen, sizeof (seq_unseen), "%s:", NONULL (MhUnseen)); snprintf (seq_replied, sizeof (seq_replied), "%s:", NONULL (MhReplied)); snprintf (seq_flagged, sizeof (seq_flagged), "%s:", NONULL (MhFlagged)); snprintf (sequences, sizeof (sequences), "%s/.mh_sequences", ctx->path); if ((ofp = fopen (sequences, "r"))) { while ((buff = mutt_read_line (buff, &sz, ofp, &line, 0))) { if (unseen && !strncmp (buff, seq_unseen, mutt_strlen (seq_unseen))) { fprintf (nfp, "%s %d\n", buff, n); unseen_done = 1; } else if (flagged && !strncmp (buff, seq_flagged, mutt_strlen (seq_flagged))) { fprintf (nfp, "%s %d\n", buff, n); flagged_done = 1; } else if (replied && !strncmp (buff, seq_replied, mutt_strlen (seq_replied))) { fprintf (nfp, "%s %d\n", buff, n); replied_done = 1; } else fprintf (nfp, "%s\n", buff); } } safe_fclose (&ofp); FREE (&buff); if (!unseen_done && unseen) fprintf (nfp, "%s: %d\n", NONULL (MhUnseen), n); if (!flagged_done && flagged) fprintf (nfp, "%s: %d\n", NONULL (MhFlagged), n); if (!replied_done && replied) fprintf (nfp, "%s: %d\n", NONULL (MhReplied), n); safe_fclose (&nfp); unlink (sequences); if (safe_rename (tmpfname, sequences) != 0) unlink (tmpfname); FREE (&tmpfname); } static void mh_update_maildir (struct maildir *md, struct mh_sequences *mhs) { int i; short f; char *p; for (; md; md = md->next) { if ((p = strrchr (md->h->path, '/'))) p++; else p = md->h->path; if (mutt_atoi (p, &i) < 0) continue; f = mhs_check (mhs, i); md->h->read = (f & MH_SEQ_UNSEEN) ? 0 : 1; md->h->flagged = (f & MH_SEQ_FLAGGED) ? 1 : 0; md->h->replied = (f & MH_SEQ_REPLIED) ? 1 : 0; } } /* maildir support */ static void maildir_free_entry (struct maildir **md) { if (!md || !*md) return; FREE (&(*md)->canon_fname); if ((*md)->h) mutt_free_header (&(*md)->h); FREE (md); /* __FREE_CHECKED__ */ } static void maildir_free_maildir (struct maildir **md) { struct maildir *p, *q; if (!md || !*md) return; for (p = *md; p; p = q) { q = p->next; maildir_free_entry (&p); } } static void maildir_parse_flags (HEADER * h, const char *path) { char *p, *q = NULL; h->flagged = 0; h->read = 0; h->replied = 0; if ((p = strrchr (path, ':')) != NULL && mutt_strncmp (p + 1, "2,", 2) == 0) { p += 3; mutt_str_replace (&h->maildir_flags, p); q = h->maildir_flags; while (*p) { switch (*p) { case 'F': h->flagged = 1; break; case 'S': /* seen */ h->read = 1; break; case 'R': /* replied */ h->replied = 1; break; case 'T': /* trashed */ h->trash = 1; h->deleted = 1; break; default: *q++ = *p; break; } p++; } } if (q == h->maildir_flags) FREE (&h->maildir_flags); else if (q) *q = '\0'; } static void maildir_update_mtime (CONTEXT * ctx) { char buf[_POSIX_PATH_MAX]; struct stat st; struct mh_data *data = mh_data (ctx); if (ctx->magic == M_MAILDIR) { snprintf (buf, sizeof (buf), "%s/%s", ctx->path, "cur"); if (stat (buf, &st) == 0) data->mtime_cur = st.st_mtime; snprintf (buf, sizeof (buf), "%s/%s", ctx->path, "new"); } else { snprintf (buf, sizeof (buf), "%s/.mh_sequences", ctx->path); if (stat (buf, &st) == 0) data->mtime_cur = st.st_mtime; strfcpy (buf, ctx->path, sizeof (buf)); } if (stat (buf, &st) == 0) ctx->mtime = st.st_mtime; } /* * Actually parse a maildir message. This may also be used to fill * out a fake header structure generated by lazy maildir parsing. */ static HEADER *maildir_parse_message (int magic, const char *fname, int is_old, HEADER * _h) { FILE *f; HEADER *h = _h; struct stat st; if ((f = fopen (fname, "r")) != NULL) { if (!h) h = mutt_new_header (); h->env = mutt_read_rfc822_header (f, h, 0, 0); fstat (fileno (f), &st); safe_fclose (&f); if (!h->received) h->received = h->date_sent; if (h->content->length <= 0) h->content->length = st.st_size - h->content->offset; h->index = -1; if (magic == M_MAILDIR) { /* * maildir stores its flags in the filename, so ignore the * flags in the header of the message */ h->old = is_old; maildir_parse_flags (h, fname); } return h; } return NULL; } /* Ignore the garbage files. A valid MH message consists of only * digits. Deleted message get moved to a filename with a comma before * it. */ int mh_valid_message (const char *s) { for (; *s; s++) { if (!isdigit ((unsigned char) *s)) return 0; } return 1; } static int maildir_parse_dir (CONTEXT * ctx, struct maildir ***last, const char *subdir, int *count, progress_t *progress) { DIR *dirp; struct dirent *de; char buf[_POSIX_PATH_MAX]; int is_old = 0; struct maildir *entry; HEADER *h; if (subdir) { snprintf (buf, sizeof (buf), "%s/%s", ctx->path, subdir); is_old = (mutt_strcmp ("cur", subdir) == 0); } else strfcpy (buf, ctx->path, sizeof (buf)); if ((dirp = opendir (buf)) == NULL) return -1; while ((de = readdir (dirp)) != NULL) { if ((ctx->magic == M_MH && !mh_valid_message (de->d_name)) || (ctx->magic == M_MAILDIR && *de->d_name == '.')) continue; /* FOO - really ignore the return value? */ dprint (2, (debugfile, "%s:%d: queueing %s\n", __FILE__, __LINE__, de->d_name)); h = mutt_new_header (); h->old = is_old; if (ctx->magic == M_MAILDIR) maildir_parse_flags (h, de->d_name); if (count) { (*count)++; if (!ctx->quiet && progress) mutt_progress_update (progress, *count, -1); } if (subdir) { char tmp[_POSIX_PATH_MAX]; snprintf (tmp, sizeof (tmp), "%s/%s", subdir, de->d_name); h->path = safe_strdup (tmp); } else h->path = safe_strdup (de->d_name); entry = safe_calloc (sizeof (struct maildir), 1); entry->h = h; #ifdef HAVE_DIRENT_D_INO entry->inode = de->d_ino; #endif /* HAVE_DIRENT_D_INO */ **last = entry; *last = &entry->next; } closedir (dirp); return 0; } static int maildir_add_to_context (CONTEXT * ctx, struct maildir *md) { int oldmsgcount = ctx->msgcount; while (md) { dprint (2, (debugfile, "%s:%d maildir_add_to_context(): Considering %s\n", __FILE__, __LINE__, NONULL (md->canon_fname))); if (md->h) { dprint (2, (debugfile, "%s:%d Adding header structure. Flags: %s%s%s%s%s\n", __FILE__, __LINE__, md->h->flagged ? "f" : "", md->h->deleted ? "D" : "", md->h->replied ? "r" : "", md->h->old ? "O" : "", md->h->read ? "R" : "")); if (ctx->msgcount == ctx->hdrmax) mx_alloc_memory (ctx); ctx->hdrs[ctx->msgcount] = md->h; ctx->hdrs[ctx->msgcount]->index = ctx->msgcount; ctx->size += md->h->content->length + md->h->content->offset - md->h->content->hdr_offset; md->h = NULL; ctx->msgcount++; } md = md->next; } if (ctx->msgcount > oldmsgcount) { mx_update_context (ctx, ctx->msgcount - oldmsgcount); return 1; } return 0; } static int maildir_move_to_context (CONTEXT * ctx, struct maildir **md) { int r; r = maildir_add_to_context (ctx, *md); maildir_free_maildir (md); return r; } #if USE_HCACHE static size_t maildir_hcache_keylen (const char *fn) { const char * p = strrchr (fn, ':'); return p ? (size_t) (p - fn) : mutt_strlen(fn); } #endif #if HAVE_DIRENT_D_INO static int md_cmp_inode (struct maildir *a, struct maildir *b) { return a->inode - b->inode; } #endif static int md_cmp_path (struct maildir *a, struct maildir *b) { return strcmp (a->h->path, b->h->path); } /* * Merge two maildir lists according to the inode numbers. */ static struct maildir* maildir_merge_lists (struct maildir *left, struct maildir *right, int (*cmp) (struct maildir *, struct maildir *)) { struct maildir* head; struct maildir* tail; if (left && right) { if (cmp (left, right) < 0) { head = left; left = left->next; } else { head = right; right = right->next; } } else { if (left) return left; else return right; } tail = head; while (left && right) { if (cmp (left, right) < 0) { tail->next = left; left = left->next; } else { tail->next = right; right = right->next; } tail = tail->next; } if (left) { tail->next = left; } else { tail->next = right; } return head; } static struct maildir* maildir_ins_sort (struct maildir* list, int (*cmp) (struct maildir *, struct maildir *)) { struct maildir *tmp, *last, *ret = NULL, *back; ret = list; list = list->next; ret->next = NULL; while (list) { last = NULL; back = list->next; for (tmp = ret; tmp && cmp (tmp, list) <= 0; tmp = tmp->next) last = tmp; list->next = tmp; if (last) last->next = list; else ret = list; list = back; } return ret; } /* * Sort maildir list according to inode. */ static struct maildir* maildir_sort (struct maildir* list, size_t len, int (*cmp) (struct maildir *, struct maildir *)) { struct maildir* left = list; struct maildir* right = list; size_t c = 0; if (!list || !list->next) { return list; } if (len != (size_t)(-1) && len <= INS_SORT_THRESHOLD) return maildir_ins_sort (list, cmp); list = list->next; while (list && list->next) { right = right->next; list = list->next->next; c++; } list = right; right = right->next; list->next = 0; left = maildir_sort (left, c, cmp); right = maildir_sort (right, c, cmp); return maildir_merge_lists (left, right, cmp); } /* Sorts mailbox into it's natural order. * Currently only defined for MH where files are numbered. */ static void mh_sort_natural (CONTEXT *ctx, struct maildir **md) { if (!ctx || !md || !*md || ctx->magic != M_MH || Sort != SORT_ORDER) return; dprint (4, (debugfile, "maildir: sorting %s into natural order\n", ctx->path)); *md = maildir_sort (*md, (size_t) -1, md_cmp_path); } #if HAVE_DIRENT_D_INO static struct maildir *skip_duplicates (struct maildir *p, struct maildir **last) { /* * Skip ahead to the next non-duplicate message. * * p should never reach NULL, because we couldn't have reached this point unless * there was a message that needed to be parsed. * * the check for p->header_parsed is likely unnecessary since the dupes will most * likely be at the head of the list. but it is present for consistency with * the check at the top of the for() loop in maildir_delayed_parsing(). */ while (!p->h || p->header_parsed) { *last = p; p = p->next; } return p; } #endif /* * This function does the second parsing pass */ static void maildir_delayed_parsing (CONTEXT * ctx, struct maildir **md, progress_t *progress) { struct maildir *p, *last = NULL; char fn[_POSIX_PATH_MAX]; int count; #if HAVE_DIRENT_D_INO int sort = 0; #endif #if USE_HCACHE header_cache_t *hc = NULL; void *data; struct timeval *when = NULL; struct stat lastchanged; int ret; #endif #if HAVE_DIRENT_D_INO #define DO_SORT() do { \ if (!sort) \ { \ dprint (4, (debugfile, "maildir: need to sort %s by inode\n", ctx->path)); \ p = maildir_sort (p, (size_t) -1, md_cmp_inode); \ if (!last) \ *md = p; \ else \ last->next = p; \ sort = 1; \ p = skip_duplicates (p, &last); \ snprintf (fn, sizeof (fn), "%s/%s", ctx->path, p->h->path); \ } \ } while(0) #else #define DO_SORT() /* nothing */ #endif #if USE_HCACHE hc = mutt_hcache_open (HeaderCache, ctx->path, NULL); #endif for (p = *md, count = 0; p; p = p->next, count++) { if (! (p && p->h && !p->header_parsed)) { last = p; continue; } if (!ctx->quiet && progress) mutt_progress_update (progress, count, -1); DO_SORT(); snprintf (fn, sizeof (fn), "%s/%s", ctx->path, p->h->path); #if USE_HCACHE if (option(OPTHCACHEVERIFY)) { ret = stat(fn, &lastchanged); } else { lastchanged.st_mtime = 0; ret = 0; } if (ctx->magic == M_MH) data = mutt_hcache_fetch (hc, p->h->path, strlen); else data = mutt_hcache_fetch (hc, p->h->path + 3, &maildir_hcache_keylen); when = (struct timeval *) data; if (data != NULL && !ret && lastchanged.st_mtime <= when->tv_sec) { p->h = mutt_hcache_restore ((unsigned char *)data, &p->h); if (ctx->magic == M_MAILDIR) maildir_parse_flags (p->h, fn); } else { #endif /* USE_HCACHE */ if (maildir_parse_message (ctx->magic, fn, p->h->old, p->h)) { p->header_parsed = 1; #if USE_HCACHE if (ctx->magic == M_MH) mutt_hcache_store (hc, p->h->path, p->h, 0, strlen); else mutt_hcache_store (hc, p->h->path + 3, p->h, 0, &maildir_hcache_keylen); #endif } else mutt_free_header (&p->h); #if USE_HCACHE } FREE (&data); #endif last = p; } #if USE_HCACHE mutt_hcache_close (hc); #endif #undef DO_SORT mh_sort_natural (ctx, md); } static int mh_close_mailbox (CONTEXT *ctx) { FREE (&ctx->data); return 0; } /* Read a MH/maildir style mailbox. * * args: * ctx [IN/OUT] context for this mailbox * subdir [IN] NULL for MH mailboxes, otherwise the subdir of the * maildir mailbox to read from */ int mh_read_dir (CONTEXT * ctx, const char *subdir) { struct maildir *md; struct mh_sequences mhs; struct maildir **last; struct mh_data *data; int count; char msgbuf[STRING]; progress_t progress; memset (&mhs, 0, sizeof (mhs)); if (!ctx->quiet) { snprintf (msgbuf, sizeof (msgbuf), _("Scanning %s..."), ctx->path); mutt_progress_init (&progress, msgbuf, M_PROGRESS_MSG, ReadInc, 0); } if (!ctx->data) { ctx->data = safe_calloc(sizeof (struct mh_data), 1); ctx->mx_close = mh_close_mailbox; } data = mh_data (ctx); maildir_update_mtime (ctx); md = NULL; last = &md; count = 0; if (maildir_parse_dir (ctx, &last, subdir, &count, &progress) == -1) return -1; if (!ctx->quiet) { snprintf (msgbuf, sizeof (msgbuf), _("Reading %s..."), ctx->path); mutt_progress_init (&progress, msgbuf, M_PROGRESS_MSG, ReadInc, count); } maildir_delayed_parsing (ctx, &md, &progress); if (ctx->magic == M_MH) { if (mh_read_sequences (&mhs, ctx->path) >= 0) return -1; mh_update_maildir (md, &mhs); mhs_free_sequences (&mhs); } maildir_move_to_context (ctx, &md); if (!data->mh_umask) data->mh_umask = mh_umask (ctx); return 0; } /* read a maildir style mailbox */ int maildir_read_dir (CONTEXT * ctx) { /* maildir looks sort of like MH, except that there are two subdirectories * of the main folder path from which to read messages */ if (mh_read_dir (ctx, "new") == -1 || mh_read_dir (ctx, "cur") == -1) return (-1); return 0; } /* * Open a new (temporary) message in an MH folder. */ int mh_open_new_message (MESSAGE * msg, CONTEXT * dest, HEADER * hdr) { return mh_mkstemp (dest, &msg->fp, &msg->path); } static int ch_compar (const void *a, const void *b) { return (int)( *((const char *) a) - *((const char *) b)); } static void maildir_flags (char *dest, size_t destlen, HEADER * hdr) { *dest = '\0'; /* * The maildir specification requires that all files in the cur * subdirectory have the :unique string appeneded, regardless of whether * or not there are any flags. If .old is set, we know that this message * will end up in the cur directory, so we include it in the following * test even though there is no associated flag. */ if (hdr && (hdr->flagged || hdr->replied || hdr->read || hdr->deleted || hdr->old || hdr->maildir_flags)) { char tmp[LONG_STRING]; snprintf (tmp, sizeof (tmp), "%s%s%s%s%s", hdr->flagged ? "F" : "", hdr->replied ? "R" : "", hdr->read ? "S" : "", hdr->deleted ? "T" : "", NONULL(hdr->maildir_flags)); if (hdr->maildir_flags) qsort (tmp, strlen (tmp), 1, ch_compar); snprintf (dest, destlen, ":2,%s", tmp); } } /* * Open a new (temporary) message in a maildir folder. * * Note that this uses _almost_ the maildir file name format, but * with a {cur,new} prefix. * */ int maildir_open_new_message (MESSAGE * msg, CONTEXT * dest, HEADER * hdr) { int fd; char path[_POSIX_PATH_MAX]; char suffix[16]; char subdir[16]; mode_t omask; if (hdr) { short deleted = hdr->deleted; hdr->deleted = 0; maildir_flags (suffix, sizeof (suffix), hdr); hdr->deleted = deleted; } else *suffix = '\0'; if (hdr && (hdr->read || hdr->old)) strfcpy (subdir, "cur", sizeof (subdir)); else strfcpy (subdir, "new", sizeof (subdir)); omask = umask (mh_umask (dest)); FOREVER { snprintf (path, _POSIX_PATH_MAX, "%s/tmp/%s.%lld.%u_%d.%s%s", dest->path, subdir, (long long)time (NULL), (unsigned int)getpid (), Counter++, NONULL (Hostname), suffix); dprint (2, (debugfile, "maildir_open_new_message (): Trying %s.\n", path)); if ((fd = open (path, O_WRONLY | O_EXCL | O_CREAT, 0666)) == -1) { if (errno != EEXIST) { umask (omask); mutt_perror (path); return -1; } } else { dprint (2, (debugfile, "maildir_open_new_message (): Success.\n")); msg->path = safe_strdup (path); break; } } umask (omask); if ((msg->fp = fdopen (fd, "w")) == NULL) { FREE (&msg->path); close (fd); unlink (path); return (-1); } return 0; } /* * Commit a message to a maildir folder. * * msg->path contains the file name of a file in tmp/. We take the * flags from this file's name. * * ctx is the mail folder we commit to. * * hdr is a header structure to which we write the message's new * file name. This is used in the mh and maildir folder synch * routines. When this routine is invoked from mx_commit_message, * hdr is NULL. * * msg->path looks like this: * * tmp/{cur,new}.mutt-HOSTNAME-PID-COUNTER:flags * * See also maildir_open_new_message(). * */ int maildir_commit_message (CONTEXT * ctx, MESSAGE * msg, HEADER * hdr) { char subdir[4]; char suffix[16]; char path[_POSIX_PATH_MAX]; char full[_POSIX_PATH_MAX]; char *s; if (safe_fsync_close (&msg->fp)) { mutt_perror (_("Could not flush message to disk")); return -1; } /* extract the subdir */ s = strrchr (msg->path, '/') + 1; strfcpy (subdir, s, 4); /* extract the flags */ if ((s = strchr (s, ':'))) strfcpy (suffix, s, sizeof (suffix)); else suffix[0] = '\0'; /* construct a new file name. */ FOREVER { snprintf (path, _POSIX_PATH_MAX, "%s/%lld.%u_%d.%s%s", subdir, (long long)time (NULL), (unsigned int)getpid (), Counter++, NONULL (Hostname), suffix); snprintf (full, _POSIX_PATH_MAX, "%s/%s", ctx->path, path); dprint (2, (debugfile, "maildir_commit_message (): renaming %s to %s.\n", msg->path, full)); if (safe_rename (msg->path, full) == 0) { if (hdr) mutt_str_replace (&hdr->path, path); FREE (&msg->path); /* * Adjust the mtime on the file to match the time at which this * message was received. Currently this is only set when copying * messages between mailboxes, so we test to ensure that it is * actually set. */ if (msg->received) { struct utimbuf ut; ut.actime = msg->received; ut.modtime = msg->received; if (utime (full, &ut)) { mutt_perror (_("maildir_commit_message(): unable to set time on file")); return -1; } } return 0; } else if (errno != EEXIST) { mutt_perror (ctx->path); return -1; } } } /* * commit a message to an MH folder. * */ static int _mh_commit_message (CONTEXT * ctx, MESSAGE * msg, HEADER * hdr, short updseq) { DIR *dirp; struct dirent *de; char *cp, *dep; unsigned int n, hi = 0; char path[_POSIX_PATH_MAX]; char tmp[16]; if (safe_fsync_close (&msg->fp)) { mutt_perror (_("Could not flush message to disk")); return -1; } if ((dirp = opendir (ctx->path)) == NULL) { mutt_perror (ctx->path); return (-1); } /* figure out what the next message number is */ while ((de = readdir (dirp)) != NULL) { dep = de->d_name; if (*dep == ',') dep++; cp = dep; while (*cp) { if (!isdigit ((unsigned char) *cp)) break; cp++; } if (!*cp) { n = atoi (dep); if (n > hi) hi = n; } } closedir (dirp); /* * Now try to rename the file to the proper name. * * Note: We may have to try multiple times, until we find a free * slot. */ FOREVER { hi++; snprintf (tmp, sizeof (tmp), "%d", hi); snprintf (path, sizeof (path), "%s/%s", ctx->path, tmp); if (safe_rename (msg->path, path) == 0) { if (hdr) mutt_str_replace (&hdr->path, tmp); FREE (&msg->path); break; } else if (errno != EEXIST) { mutt_perror (ctx->path); return -1; } } if (updseq) mh_sequences_add_one (ctx, hi, !msg->flags.read, msg->flags.flagged, msg->flags.replied); return 0; } int mh_commit_message (CONTEXT * ctx, MESSAGE * msg, HEADER * hdr) { return _mh_commit_message (ctx, msg, hdr, 1); } /* Sync a message in an MH folder. * * This code is also used for attachment deletion in maildir * folders. */ static int mh_rewrite_message (CONTEXT * ctx, int msgno) { HEADER *h = ctx->hdrs[msgno]; MESSAGE *dest; int rc; short restore = 1; char oldpath[_POSIX_PATH_MAX]; char newpath[_POSIX_PATH_MAX]; char partpath[_POSIX_PATH_MAX]; long old_body_offset = h->content->offset; long old_body_length = h->content->length; long old_hdr_lines = h->lines; if ((dest = mx_open_new_message (ctx, h, 0)) == NULL) return -1; if ((rc = mutt_copy_message (dest->fp, ctx, h, M_CM_UPDATE, CH_UPDATE | CH_UPDATE_LEN)) == 0) { snprintf (oldpath, _POSIX_PATH_MAX, "%s/%s", ctx->path, h->path); strfcpy (partpath, h->path, _POSIX_PATH_MAX); if (ctx->magic == M_MAILDIR) rc = maildir_commit_message (ctx, dest, h); else rc = _mh_commit_message (ctx, dest, h, 0); mx_close_message (&dest); if (rc == 0) { unlink (oldpath); restore = 0; } /* * Try to move the new message to the old place. * (MH only.) * * This is important when we are just updating flags. * * Note that there is a race condition against programs which * use the first free slot instead of the maximum message * number. Mutt does _not_ behave like this. * * Anyway, if this fails, the message is in the folder, so * all what happens is that a concurrently runnung mutt will * lose flag modifications. */ if (ctx->magic == M_MH && rc == 0) { snprintf (newpath, _POSIX_PATH_MAX, "%s/%s", ctx->path, h->path); if ((rc = safe_rename (newpath, oldpath)) == 0) mutt_str_replace (&h->path, partpath); } } else mx_close_message (&dest); if (rc == -1 && restore) { h->content->offset = old_body_offset; h->content->length = old_body_length; h->lines = old_hdr_lines; } mutt_free_body (&h->content->parts); return rc; } static int mh_sync_message (CONTEXT * ctx, int msgno) { HEADER *h = ctx->hdrs[msgno]; if (h->attach_del || (h->env && (h->env->refs_changed || h->env->irt_changed))) if (mh_rewrite_message (ctx, msgno) != 0) return -1; return 0; } static int maildir_sync_message (CONTEXT * ctx, int msgno) { HEADER *h = ctx->hdrs[msgno]; if (h->attach_del || (h->env && (h->env->refs_changed || h->env->irt_changed))) { /* when doing attachment deletion/rethreading, fall back to the MH case. */ if (mh_rewrite_message (ctx, msgno) != 0) return (-1); } else { /* we just have to rename the file. */ char newpath[_POSIX_PATH_MAX]; char partpath[_POSIX_PATH_MAX]; char fullpath[_POSIX_PATH_MAX]; char oldpath[_POSIX_PATH_MAX]; char suffix[16]; char *p; if ((p = strrchr (h->path, '/')) == NULL) { dprint (1, (debugfile, "maildir_sync_message: %s: unable to find subdir!\n", h->path)); return (-1); } p++; strfcpy (newpath, p, sizeof (newpath)); /* kill the previous flags */ if ((p = strchr (newpath, ':')) != NULL) *p = 0; maildir_flags (suffix, sizeof (suffix), h); snprintf (partpath, sizeof (partpath), "%s/%s%s", (h->read || h->old) ? "cur" : "new", newpath, suffix); snprintf (fullpath, sizeof (fullpath), "%s/%s", ctx->path, partpath); snprintf (oldpath, sizeof (oldpath), "%s/%s", ctx->path, h->path); if (mutt_strcmp (fullpath, oldpath) == 0) { /* message hasn't really changed */ return 0; } /* record that the message is possibly marked as trashed on disk */ h->trash = h->deleted; if (rename (oldpath, fullpath) != 0) { mutt_perror ("rename"); return (-1); } mutt_str_replace (&h->path, partpath); } return (0); } int mh_sync_mailbox (CONTEXT * ctx, int *index_hint) { char path[_POSIX_PATH_MAX], tmp[_POSIX_PATH_MAX]; int i, j; #if USE_HCACHE header_cache_t *hc = NULL; #endif /* USE_HCACHE */ char msgbuf[STRING]; progress_t progress; if (ctx->magic == M_MH) i = mh_check_mailbox (ctx, index_hint); else i = maildir_check_mailbox (ctx, index_hint); if (i != 0) return i; #if USE_HCACHE if (ctx->magic == M_MAILDIR || ctx->magic == M_MH) hc = mutt_hcache_open(HeaderCache, ctx->path, NULL); #endif /* USE_HCACHE */ if (!ctx->quiet) { snprintf (msgbuf, sizeof (msgbuf), _("Writing %s..."), ctx->path); mutt_progress_init (&progress, msgbuf, M_PROGRESS_MSG, WriteInc, ctx->msgcount); } for (i = 0; i < ctx->msgcount; i++) { if (!ctx->quiet) mutt_progress_update (&progress, i, -1); if (ctx->hdrs[i]->deleted && (ctx->magic != M_MAILDIR || !option (OPTMAILDIRTRASH))) { snprintf (path, sizeof (path), "%s/%s", ctx->path, ctx->hdrs[i]->path); if (ctx->magic == M_MAILDIR || (option (OPTMHPURGE) && ctx->magic == M_MH)) { #if USE_HCACHE if (ctx->magic == M_MAILDIR) mutt_hcache_delete (hc, ctx->hdrs[i]->path + 3, &maildir_hcache_keylen); else if (ctx->magic == M_MH) mutt_hcache_delete (hc, ctx->hdrs[i]->path, strlen); #endif /* USE_HCACHE */ unlink (path); } else if (ctx->magic == M_MH) { /* MH just moves files out of the way when you delete them */ if (*ctx->hdrs[i]->path != ',') { snprintf (tmp, sizeof (tmp), "%s/,%s", ctx->path, ctx->hdrs[i]->path); unlink (tmp); rename (path, tmp); } } } else if (ctx->hdrs[i]->changed || ctx->hdrs[i]->attach_del || (ctx->magic == M_MAILDIR && (option (OPTMAILDIRTRASH) || ctx->hdrs[i]->trash) && (ctx->hdrs[i]->deleted != ctx->hdrs[i]->trash))) { if (ctx->magic == M_MAILDIR) { if (maildir_sync_message (ctx, i) == -1) goto err; } else { if (mh_sync_message (ctx, i) == -1) goto err; } } #if USE_HCACHE if (ctx->hdrs[i]->changed) { if (ctx->magic == M_MAILDIR) mutt_hcache_store (hc, ctx->hdrs[i]->path + 3, ctx->hdrs[i], 0, &maildir_hcache_keylen); else if (ctx->magic == M_MH) mutt_hcache_store (hc, ctx->hdrs[i]->path, ctx->hdrs[i], 0, strlen); } #endif } #if USE_HCACHE if (ctx->magic == M_MAILDIR || ctx->magic == M_MH) mutt_hcache_close (hc); #endif /* USE_HCACHE */ if (ctx->magic == M_MH) mh_update_sequences (ctx); /* XXX race condition? */ maildir_update_mtime (ctx); /* adjust indices */ if (ctx->deleted) { for (i = 0, j = 0; i < ctx->msgcount; i++) { if (!ctx->hdrs[i]->deleted || (ctx->magic == M_MAILDIR && option (OPTMAILDIRTRASH))) ctx->hdrs[i]->index = j++; } } return 0; err: #if USE_HCACHE if (ctx->magic == M_MAILDIR || ctx->magic == M_MH) mutt_hcache_close (hc); #endif /* USE_HCACHE */ return -1; } static char *maildir_canon_filename (char *dest, const char *src, size_t l) { char *t, *u; if ((t = strrchr (src, '/'))) src = t + 1; strfcpy (dest, src, l); if ((u = strrchr (dest, ':'))) *u = '\0'; return dest; } static void maildir_update_tables (CONTEXT *ctx, int *index_hint) { short old_sort; int old_count; int i, j; if (Sort != SORT_ORDER) { old_sort = Sort; Sort = SORT_ORDER; mutt_sort_headers (ctx, 1); Sort = old_sort; } old_count = ctx->msgcount; for (i = 0, j = 0; i < old_count; i++) { if (ctx->hdrs[i]->active && index_hint && *index_hint == i) *index_hint = j; if (ctx->hdrs[i]->active) ctx->hdrs[i]->index = j++; } mx_update_tables (ctx, 0); mutt_clear_threads (ctx); } static void maildir_update_flags (CONTEXT *ctx, HEADER *o, HEADER *n) { /* save the global state here so we can reset it at the * end of list block if required. */ int context_changed = ctx->changed; /* user didn't modify this message. alter the flags to match the * current state on disk. This may not actually do * anything. mutt_set_flag() will just ignore the call if the status * bits are already properly set, but it is still faster not to pass * through it */ if (o->flagged != n->flagged) mutt_set_flag (ctx, o, M_FLAG, n->flagged); if (o->replied != n->replied) mutt_set_flag (ctx, o, M_REPLIED, n->replied); if (o->read != n->read) mutt_set_flag (ctx, o, M_READ, n->read); if (o->old != n->old) mutt_set_flag (ctx, o, M_OLD, n->old); /* mutt_set_flag() will set this, but we don't need to * sync the changes we made because we just updated the * context to match the current on-disk state of the * message. */ o->changed = 0; /* if the mailbox was not modified before we made these * changes, unset the changed flag since nothing needs to * be synchronized. */ if (!context_changed) ctx->changed = 0; } /* This function handles arrival of new mail and reopening of * maildir folders. The basic idea here is we check to see if either * the new or cur subdirectories have changed, and if so, we scan them * for the list of files. We check for newly added messages, and * then merge the flags messages we already knew about. We don't treat * either subdirectory differently, as mail could be copied directly into * the cur directory from another agent. */ int maildir_check_mailbox (CONTEXT * ctx, int *index_hint) { struct stat st_new; /* status of the "new" subdirectory */ struct stat st_cur; /* status of the "cur" subdirectory */ char buf[_POSIX_PATH_MAX]; int changed = 0; /* bitmask representing which subdirectories have changed. 0x1 = new, 0x2 = cur */ int occult = 0; /* messages were removed from the mailbox */ int have_new = 0; /* messages were added to the mailbox */ struct maildir *md; /* list of messages in the mailbox */ struct maildir **last, *p; int i; HASH *fnames; /* hash table for quickly looking up the base filename for a maildir message */ struct mh_data *data = mh_data (ctx); /* XXX seems like this check belongs in mx_check_mailbox() * rather than here. */ if (!option (OPTCHECKNEW)) return 0; snprintf (buf, sizeof (buf), "%s/new", ctx->path); if (stat (buf, &st_new) == -1) return -1; snprintf (buf, sizeof (buf), "%s/cur", ctx->path); if (stat (buf, &st_cur) == -1) return -1; /* determine which subdirectories need to be scanned */ if (st_new.st_mtime > ctx->mtime) changed = 1; if (st_cur.st_mtime > data->mtime_cur) changed |= 2; if (!changed) return 0; /* nothing to do */ /* update the modification times on the mailbox */ data->mtime_cur = st_cur.st_mtime; ctx->mtime = st_new.st_mtime; /* do a fast scan of just the filenames in * the subdirectories that have changed. */ md = NULL; last = &md; if (changed & 1) maildir_parse_dir (ctx, &last, "new", NULL, NULL); if (changed & 2) maildir_parse_dir (ctx, &last, "cur", NULL, NULL); /* we create a hash table keyed off the canonical (sans flags) filename * of each message we scanned. This is used in the loop over the * existing messages below to do some correlation. */ fnames = hash_create (1031, 0); for (p = md; p; p = p->next) { maildir_canon_filename (buf, p->h->path, sizeof (buf)); p->canon_fname = safe_strdup (buf); hash_insert (fnames, p->canon_fname, p, 0); } /* check for modifications and adjust flags */ for (i = 0; i < ctx->msgcount; i++) { ctx->hdrs[i]->active = 0; maildir_canon_filename (buf, ctx->hdrs[i]->path, sizeof (buf)); p = hash_find (fnames, buf); if (p && p->h) { /* message already exists, merge flags */ ctx->hdrs[i]->active = 1; /* check to see if the message has moved to a different * subdirectory. If so, update the associated filename. */ if (mutt_strcmp (ctx->hdrs[i]->path, p->h->path)) mutt_str_replace (&ctx->hdrs[i]->path, p->h->path); /* if the user hasn't modified the flags on this message, update * the flags we just detected. */ if (!ctx->hdrs[i]->changed) maildir_update_flags (ctx, ctx->hdrs[i], p->h); if (ctx->hdrs[i]->deleted == ctx->hdrs[i]->trash) ctx->hdrs[i]->deleted = p->h->deleted; ctx->hdrs[i]->trash = p->h->trash; /* this is a duplicate of an existing header, so remove it */ mutt_free_header (&p->h); } /* This message was not in the list of messages we just scanned. * Check to see if we have enough information to know if the * message has disappeared out from underneath us. */ else if (((changed & 1) && (!strncmp (ctx->hdrs[i]->path, "new/", 4))) || ((changed & 2) && (!strncmp (ctx->hdrs[i]->path, "cur/", 4)))) { /* This message disappeared, so we need to simulate a "reopen" * event. We know it disappeared because we just scanned the * subdirectory it used to reside in. */ occult = 1; } else { /* This message resides in a subdirectory which was not * modified, so we assume that it is still present and * unchanged. */ ctx->hdrs[i]->active = 1; } } /* destroy the file name hash */ hash_destroy (&fnames, NULL); /* If we didn't just get new mail, update the tables. */ if (occult) maildir_update_tables (ctx, index_hint); /* do any delayed parsing we need to do. */ maildir_delayed_parsing (ctx, &md, NULL); /* Incorporate new messages */ have_new = maildir_move_to_context (ctx, &md); return occult ? M_REOPENED : (have_new ? M_NEW_MAIL : 0); } /* * This function handles arrival of new mail and reopening of * mh/maildir folders. Things are getting rather complex because we * don't have a well-defined "mailbox order", so the tricks from * mbox.c and mx.c won't work here. * * Don't change this code unless you _really_ understand what * happens. * */ int mh_check_mailbox (CONTEXT * ctx, int *index_hint) { char buf[_POSIX_PATH_MAX]; struct stat st, st_cur; short modified = 0, have_new = 0, occult = 0; struct maildir *md, *p; struct maildir **last = NULL; struct mh_sequences mhs; HASH *fnames; int i; struct mh_data *data = mh_data (ctx); if (!option (OPTCHECKNEW)) return 0; strfcpy (buf, ctx->path, sizeof (buf)); if (stat (buf, &st) == -1) return -1; /* create .mh_sequences when there isn't one. */ snprintf (buf, sizeof (buf), "%s/.mh_sequences", ctx->path); if ((i = stat (buf, &st_cur)) == -1 && errno == ENOENT) { char *tmp; FILE *fp = NULL; if (mh_mkstemp (ctx, &fp, &tmp) == 0) { safe_fclose (&fp); if (safe_rename (tmp, buf) == -1) unlink (tmp); FREE (&tmp); } } if (i == -1 && stat (buf, &st_cur) == -1) modified = 1; if (st.st_mtime > ctx->mtime || st_cur.st_mtime > data->mtime_cur) modified = 1; if (!modified) return 0; data->mtime_cur = st_cur.st_mtime; ctx->mtime = st.st_mtime; memset (&mhs, 0, sizeof (mhs)); md = NULL; last = &md; maildir_parse_dir (ctx, &last, NULL, NULL, NULL); maildir_delayed_parsing (ctx, &md, NULL); if (mh_read_sequences (&mhs, ctx->path) < 0) return -1; mh_update_maildir (md, &mhs); mhs_free_sequences (&mhs); /* check for modifications and adjust flags */ fnames = hash_create (1031, 0); for (p = md; p; p = p->next) hash_insert (fnames, p->h->path, p, 0); for (i = 0; i < ctx->msgcount; i++) { ctx->hdrs[i]->active = 0; if ((p = hash_find (fnames, ctx->hdrs[i]->path)) && p->h && (mbox_strict_cmp_headers (ctx->hdrs[i], p->h))) { ctx->hdrs[i]->active = 1; /* found the right message */ if (!ctx->hdrs[i]->changed) maildir_update_flags (ctx, ctx->hdrs[i], p->h); mutt_free_header (&p->h); } else /* message has disappeared */ occult = 1; } /* destroy the file name hash */ hash_destroy (&fnames, NULL); /* If we didn't just get new mail, update the tables. */ if (occult) maildir_update_tables (ctx, index_hint); /* Incorporate new messages */ have_new = maildir_move_to_context (ctx, &md); return occult ? M_REOPENED : (have_new ? M_NEW_MAIL : 0); } /* * These functions try to find a message in a maildir folder when it * has moved under our feet. Note that this code is rather expensive, but * then again, it's called rarely. */ static FILE *_maildir_open_find_message (const char *folder, const char *unique, const char *subfolder) { char dir[_POSIX_PATH_MAX]; char tunique[_POSIX_PATH_MAX]; char fname[_POSIX_PATH_MAX]; DIR *dp; struct dirent *de; FILE *fp = NULL; int oe = ENOENT; snprintf (dir, sizeof (dir), "%s/%s", folder, subfolder); if ((dp = opendir (dir)) == NULL) { errno = ENOENT; return NULL; } while ((de = readdir (dp))) { maildir_canon_filename (tunique, de->d_name, sizeof (tunique)); if (!mutt_strcmp (tunique, unique)) { snprintf (fname, sizeof (fname), "%s/%s/%s", folder, subfolder, de->d_name); fp = fopen (fname, "r"); /* __FOPEN_CHECKED__ */ oe = errno; break; } } closedir (dp); errno = oe; return fp; } FILE *maildir_open_find_message (const char *folder, const char *msg) { char unique[_POSIX_PATH_MAX]; FILE *fp; static unsigned int new_hits = 0, cur_hits = 0; /* simple dynamic optimization */ maildir_canon_filename (unique, msg, sizeof (unique)); if ( (fp = _maildir_open_find_message (folder, unique, new_hits > cur_hits ? "new" : "cur")) || errno != ENOENT) { if (new_hits < UINT_MAX && cur_hits < UINT_MAX) { new_hits += (new_hits > cur_hits ? 1 : 0); cur_hits += (new_hits > cur_hits ? 0 : 1); } return fp; } if ( (fp = _maildir_open_find_message (folder, unique, new_hits > cur_hits ? "cur" : "new")) || errno != ENOENT) { if (new_hits < UINT_MAX && cur_hits < UINT_MAX) { new_hits += (new_hits > cur_hits ? 0 : 1); cur_hits += (new_hits > cur_hits ? 1 : 0); } return fp; } return NULL; } /* * Returns: * 1 if there are no messages in the mailbox * 0 if there are messages in the mailbox * -1 on error */ int maildir_check_empty (const char *path) { DIR *dp; struct dirent *de; int r = 1; /* assume empty until we find a message */ char realpath[_POSIX_PATH_MAX]; int iter = 0; /* Strategy here is to look for any file not beginning with a period */ do { /* we do "cur" on the first iteration since its more likely that we'll * find old messages without having to scan both subdirs */ snprintf (realpath, sizeof (realpath), "%s/%s", path, iter == 0 ? "cur" : "new"); if ((dp = opendir (realpath)) == NULL) return -1; while ((de = readdir (dp))) { if (*de->d_name != '.') { r = 0; break; } } closedir (dp); iter++; } while (r && iter < 2); return r; } /* * Returns: * 1 if there are no messages in the mailbox * 0 if there are messages in the mailbox * -1 on error */ int mh_check_empty (const char *path) { DIR *dp; struct dirent *de; int r = 1; /* assume empty until we find a message */ if ((dp = opendir (path)) == NULL) return -1; while ((de = readdir (dp))) { if (mh_valid_message (de->d_name)) { r = 0; break; } } closedir (dp); return r; } int mx_is_maildir (const char *path) { char tmp[_POSIX_PATH_MAX]; struct stat st; snprintf (tmp, sizeof (tmp), "%s/cur", path); if (stat (tmp, &st) == 0 && S_ISDIR (st.st_mode)) return 1; return 0; } int mx_is_mh (const char *path) { char tmp[_POSIX_PATH_MAX]; snprintf (tmp, sizeof (tmp), "%s/.mh_sequences", path); if (access (tmp, F_OK) == 0) return 1; snprintf (tmp, sizeof (tmp), "%s/.xmhcache", path); if (access (tmp, F_OK) == 0) return 1; snprintf (tmp, sizeof (tmp), "%s/.mew_cache", path); if (access (tmp, F_OK) == 0) return 1; snprintf (tmp, sizeof (tmp), "%s/.mew-cache", path); if (access (tmp, F_OK) == 0) return 1; snprintf (tmp, sizeof (tmp), "%s/.sylpheed_cache", path); if (access (tmp, F_OK) == 0) return 1; /* * ok, this isn't an mh folder, but mh mode can be used to read * Usenet news from the spool. ;-) */ snprintf (tmp, sizeof (tmp), "%s/.overview", path); if (access (tmp, F_OK) == 0) return 1; return 0; }