/* * Copyright (C) 1996-2000 Michael R. Elkins * * 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., 59 Temple Place - Suite 330, Boston, MA 02111, USA. */ /* This file contains code to parse ``mbox'' and ``mmdf'' style mailboxes */ /* OS/2's "kendra" mail folder format is also supported. It's a slightly * modified version of MMDF. */ #include "mutt.h" #include "mailbox.h" #include "mx.h" #include "sort.h" #include "copy.h" #include #include #include #include #include #include #include #include /* struct used by mutt_sync_mailbox() to store new offsets */ struct m_update_t { short valid; long hdr; long body; long lines; long length; }; /* parameters: * ctx - context to lock * excl - exclusive lock? * retry - should retry if unable to lock? */ int mbox_lock_mailbox (CONTEXT *ctx, int excl, int retry) { int r; if ((r = mx_lock_file (ctx->path, fileno (ctx->fp), excl, 1, retry)) == 0) ctx->locked = 1; else if (retry && !excl) { ctx->readonly = 1; return 0; } return (r); } void mbox_unlock_mailbox (CONTEXT *ctx) { if (ctx->locked) { fflush (ctx->fp); mx_unlock_file (ctx->path, fileno (ctx->fp), 1); ctx->locked = 0; } } int mmdf_parse_mailbox (CONTEXT *ctx) { char buf[HUGE_STRING]; char return_path[LONG_STRING]; int count = 0, oldmsgcount = ctx->msgcount; int lines; time_t t, tz; long loc, tmploc; HEADER *hdr; struct stat sb; #ifdef NFS_ATTRIBUTE_HACK struct utimbuf newtime; #endif if (stat (ctx->path, &sb) == -1) { mutt_perror (ctx->path); return (-1); } ctx->mtime = sb.st_mtime; ctx->size = sb.st_size; #ifdef NFS_ATTRIBUTE_HACK if (sb.st_mtime > sb.st_atime) { newtime.modtime = sb.st_mtime; newtime.actime = time (NULL); utime (ctx->path, &newtime); } #endif /* precompute the local timezone to speed up calculation of the received time */ tz = mutt_local_tz (0); buf[sizeof (buf) - 1] = 0; FOREVER { if (fgets (buf, sizeof (buf) - 1, ctx->fp) == NULL) break; if (mutt_strcmp (buf, ctx->magic == M_MMDF ? MMDF_SEP : KENDRA_SEP) == 0) { loc = ftell (ctx->fp); count++; if (!ctx->quiet && ReadInc && ((count % ReadInc == 0) || count == 1)) mutt_message (_("Reading %s... %d (%d%%)"), ctx->path, count, loc / (ctx->size / 100 + 1)); if (ctx->msgcount == ctx->hdrmax) mx_alloc_memory (ctx); ctx->hdrs[ctx->msgcount] = hdr = mutt_new_header (); hdr->offset = loc; hdr->index = ctx->msgcount; if (fgets (buf, sizeof (buf) - 1, ctx->fp) == NULL) { /* TODO: memory leak??? */ dprint (1, (debugfile, "mmdf_parse_mailbox: unexpected EOF\n")); break; } return_path[0] = 0; if (!is_from (buf, return_path, sizeof (return_path), &t)) { if (fseek (ctx->fp, loc, SEEK_SET) != 0) { dprint (1, (debugfile, "mmdf_parse_mailbox: fseek() failed\n")); mutt_error _("Mailbox is corrupt!"); return (-1); } } else hdr->received = t - tz; hdr->env = mutt_read_rfc822_header (ctx->fp, hdr, 0, 0); loc = ftell (ctx->fp); if (hdr->content->length > 0 && hdr->lines > 0) { tmploc = loc + hdr->content->length; if (0 < tmploc && tmploc < ctx->size) { if (fseek (ctx->fp, tmploc, SEEK_SET) != 0 || fgets (buf, sizeof (buf) - 1, ctx->fp) == NULL || mutt_strcmp (ctx->magic == M_MMDF ? MMDF_SEP : KENDRA_SEP, buf) != 0) { if (fseek (ctx->fp, loc, SEEK_SET) != 0) dprint (1, (debugfile, "mmdf_parse_mailbox: fseek() failed\n")); hdr->content->length = -1; } } else hdr->content->length = -1; } else hdr->content->length = -1; if (hdr->content->length < 0) { lines = -1; do { loc = ftell (ctx->fp); if (fgets (buf, sizeof (buf) - 1, ctx->fp) == NULL) break; lines++; } while (mutt_strcmp (buf, ctx->magic == M_MMDF ? MMDF_SEP : KENDRA_SEP) != 0); hdr->lines = lines; hdr->content->length = loc - hdr->content->offset; } if (!hdr->env->return_path && return_path[0]) hdr->env->return_path = rfc822_parse_adrlist (hdr->env->return_path, return_path); if (!hdr->env->from) hdr->env->from = rfc822_cpy_adr (hdr->env->return_path); ctx->msgcount++; if(ctx->magic == M_KENDRA && feof(ctx->fp)) break; } else { dprint (1, (debugfile, "mmdf_parse_mailbox: corrupt mailbox!\n")); mutt_error _("Mailbox is corrupt!"); return (-1); } } if (ctx->msgcount > oldmsgcount) mx_update_context (ctx, ctx->msgcount - oldmsgcount); return (0); } /* Note that this function is also called when new mail is appended to the * currently open folder, and NOT just when the mailbox is initially read. * * NOTE: it is assumed that the mailbox being read has been locked before * this routine gets called. Strange things could happen if it's not! */ int mbox_parse_mailbox (CONTEXT *ctx) { struct stat sb; char buf[HUGE_STRING], return_path[STRING]; HEADER *curhdr; time_t t, tz; int count = 0, lines = 0; long loc; #ifdef NFS_ATTRIBUTE_HACK struct utimbuf newtime; #endif /* Save information about the folder at the time we opened it. */ if (stat (ctx->path, &sb) == -1) { mutt_perror (ctx->path); return (-1); } ctx->size = sb.st_size; ctx->mtime = sb.st_mtime; #ifdef NFS_ATTRIBUTE_HACK if (sb.st_mtime > sb.st_atime) { newtime.modtime = sb.st_mtime; newtime.actime = time (NULL); utime (ctx->path, &newtime); } #endif if (!ctx->readonly) ctx->readonly = access (ctx->path, W_OK) ? 1 : 0; /* precompute the local timezone to speed up calculation of the date received */ tz = mutt_local_tz (0); loc = ftell (ctx->fp); while (fgets (buf, sizeof (buf), ctx->fp) != NULL) { if (is_from (buf, return_path, sizeof (return_path), &t)) { /* Save the Content-Length of the previous message */ if (count > 0) { #define PREV ctx->hdrs[ctx->msgcount-1] if (PREV->content->length < 0) { PREV->content->length = loc - PREV->content->offset - 1; if (PREV->content->length < 0) PREV->content->length = 0; } if (!PREV->lines) PREV->lines = lines ? lines - 1 : 0; } count++; if (!ctx->quiet && ReadInc && ((count % ReadInc == 0) || count == 1)) mutt_message (_("Reading %s... %d (%d%%)"), ctx->path, count, ftell (ctx->fp) / (ctx->size / 100 + 1)); if (ctx->msgcount == ctx->hdrmax) mx_alloc_memory (ctx); curhdr = ctx->hdrs[ctx->msgcount] = mutt_new_header (); curhdr->received = t - tz; curhdr->offset = loc; curhdr->index = ctx->msgcount; curhdr->env = mutt_read_rfc822_header (ctx->fp, curhdr, 0, 0); /* if we know how long this message is, either just skip over the body, * or if we don't know how many lines there are, count them now (this will * save time by not having to search for the next message marker). */ if (curhdr->content->length > 0) { long tmploc; loc = ftell (ctx->fp); tmploc = loc + curhdr->content->length + 1; if (0 < tmploc && tmploc < ctx->size) { /* * check to see if the content-length looks valid. we expect to * to see a valid message separator at this point in the stream */ if (fseek (ctx->fp, tmploc, SEEK_SET) != 0 || fgets (buf, sizeof (buf), ctx->fp) == NULL || mutt_strncmp ("From ", buf, 5) != 0) { dprint (1, (debugfile, "mbox_parse_mailbox: bad content-length in message %d (cl=%ld)\n", curhdr->index, curhdr->content->length)); dprint (1, (debugfile, "\tLINE: %s", buf)); if (fseek (ctx->fp, loc, SEEK_SET) != 0) /* nope, return the previous position */ { dprint (1, (debugfile, "mbox_parse_mailbox: fseek() failed\n")); } curhdr->content->length = -1; } } else if (tmploc != ctx->size) { /* content-length would put us past the end of the file, so it * must be wrong */ curhdr->content->length = -1; } if (curhdr->content->length != -1) { /* good content-length. check to see if we know how many lines * are in this message. */ if (curhdr->lines == 0) { int cl = curhdr->content->length; /* count the number of lines in this message */ if (fseek (ctx->fp, loc, SEEK_SET) != 0) dprint (1, (debugfile, "mbox_parse_mailbox: fseek() failed\n")); while (cl-- > 0) { if (fgetc (ctx->fp) == '\n') curhdr->lines++; } } /* return to the offset of the next message separator */ if (fseek (ctx->fp, tmploc, SEEK_SET) != 0) dprint (1, (debugfile, "mbox_parse_mailbox: fseek() failed\n")); } } ctx->msgcount++; if (!curhdr->env->return_path && return_path[0]) curhdr->env->return_path = rfc822_parse_adrlist (curhdr->env->return_path, return_path); if (!curhdr->env->from) curhdr->env->from = rfc822_cpy_adr (curhdr->env->return_path); lines = 0; } else lines++; loc = ftell (ctx->fp); } /* * Only set the content-length of the previous message if we have read more * than one message during _this_ invocation. If this routine is called * when new mail is received, we need to make sure not to clobber what * previously was the last message since the headers may be sorted. */ if (count > 0) { if (PREV->content->length < 0) { PREV->content->length = ftell (ctx->fp) - PREV->content->offset - 1; if (PREV->content->length < 0) PREV->content->length = 0; } if (!PREV->lines) PREV->lines = lines ? lines - 1 : 0; mx_update_context (ctx, count); } return (0); } #undef PREV /* open a mbox or mmdf style mailbox */ int mbox_open_mailbox (CONTEXT *ctx) { int rc; if ((ctx->fp = fopen (ctx->path, "r")) == NULL) { mutt_perror (ctx->path); return (-1); } mutt_block_signals (); if (mbox_lock_mailbox (ctx, 0, 1) == -1) { mutt_unblock_signals (); return (-1); } if (ctx->magic == M_MBOX) rc = mbox_parse_mailbox (ctx); else if (ctx->magic == M_MMDF || ctx->magic == M_KENDRA) rc = mmdf_parse_mailbox (ctx); else rc = -1; mbox_unlock_mailbox (ctx); mutt_unblock_signals (); return (rc); } /* return 1 if address lists are strictly identical */ static int strict_addrcmp (const ADDRESS *a, const ADDRESS *b) { while (a && b) { if (mutt_strcmp (a->mailbox, b->mailbox) || mutt_strcmp (a->personal, b->personal)) return (0); a = a->next; b = b->next; } if (a || b) return (0); return (1); } static int strict_cmp_lists (const LIST *a, const LIST *b) { while (a && b) { if (mutt_strcmp (a->data, b->data)) return (0); a = a->next; b = b->next; } if (a || b) return (0); return (1); } static int strict_cmp_envelopes (const ENVELOPE *e1, const ENVELOPE *e2) { if (e1 && e2) { if (mutt_strcmp (e1->message_id, e2->message_id) || mutt_strcmp (e1->subject, e2->subject) || !strict_cmp_lists (e1->references, e2->references) || !strict_addrcmp (e1->from, e2->from) || !strict_addrcmp (e1->sender, e2->sender) || !strict_addrcmp (e1->reply_to, e2->reply_to) || !strict_addrcmp (e1->to, e2->to) || !strict_addrcmp (e1->cc, e2->cc) || !strict_addrcmp (e1->return_path, e2->return_path)) return (0); else return (1); } else { if (e1 == NULL && e2 == NULL) return (1); else return (0); } } static int strict_cmp_parameters (const PARAMETER *p1, const PARAMETER *p2) { while (p1 && p2) { if (mutt_strcmp (p1->attribute, p2->attribute) || mutt_strcmp (p1->value, p2->value)) return (0); p1 = p1->next; p2 = p2->next; } if (p1 || p2) return (0); return (1); } static int strict_cmp_bodies (const BODY *b1, const BODY *b2) { if (b1->type != b2->type || b1->encoding != b2->encoding || mutt_strcmp (b1->subtype, b2->subtype) || mutt_strcmp (b1->description, b2->description) || !strict_cmp_parameters (b1->parameter, b2->parameter) || b1->length != b2->length) return (0); return (1); } /* return 1 if headers are strictly identical */ int mbox_strict_cmp_headers (const HEADER *h1, const HEADER *h2) { if (h1 && h2) { if (h1->received != h2->received || h1->date_sent != h2->date_sent || h1->content->length != h2->content->length || h1->lines != h2->lines || h1->zhours != h2->zhours || h1->zminutes != h2->zminutes || h1->zoccident != h2->zoccident || h1->mime != h2->mime || !strict_cmp_envelopes (h1->env, h2->env) || !strict_cmp_bodies (h1->content, h2->content)) return (0); else return (1); } else { if (h1 == NULL && h2 == NULL) return (1); else return (0); } } /* check to see if the mailbox has changed on disk. * * return values: * M_REOPENED mailbox has been reopened * M_NEW_MAIL new mail has arrived! * M_LOCKED couldn't lock the file * 0 no change * -1 error */ int mbox_check_mailbox (CONTEXT *ctx, int *index_hint) { struct stat st; char buffer[LONG_STRING]; int unlock = 0; int modified = 0; if (stat (ctx->path, &st) == 0) { if (st.st_mtime == ctx->mtime && st.st_size == ctx->size) return (0); if (st.st_size == ctx->size) { /* the file was touched, but it is still the same length, so just exit */ ctx->mtime = st.st_mtime; return (0); } if (st.st_size > ctx->size) { /* lock the file if it isn't already */ if (!ctx->locked) { mutt_block_signals (); if (mbox_lock_mailbox (ctx, 0, 0) == -1) { mutt_unblock_signals (); /* we couldn't lock the mailbox, but nothing serious happened: * probably the new mail arrived: no reason to wait till we can * parse it: we'll get it on the next pass */ return (M_LOCKED); } unlock = 1; } /* * Check to make sure that the only change to the mailbox is that * message(s) were appended to this file. My heuristic is that we should * see the message separator at *exactly* what used to be the end of the * folder. */ if (fseek (ctx->fp, ctx->size, SEEK_SET) != 0) dprint (1, (debugfile, "mbox_check_mailbox: fseek() failed\n")); if (fgets (buffer, sizeof (buffer), ctx->fp) != NULL) { if ((ctx->magic == M_MBOX && mutt_strncmp ("From ", buffer, 5) == 0) || (ctx->magic == M_MMDF && mutt_strcmp (MMDF_SEP, buffer) == 0) || (ctx->magic == M_KENDRA && mutt_strcmp(KENDRA_SEP, buffer) == 0)) { if (fseek (ctx->fp, ctx->size, SEEK_SET) != 0) dprint (1, (debugfile, "mbox_check_mailbox: fseek() failed\n")); if (ctx->magic == M_MBOX) mbox_parse_mailbox (ctx); else mmdf_parse_mailbox (ctx); /* Only unlock the folder if it was locked inside of this routine. * It may have been locked elsewhere, like in * mutt_checkpoint_mailbox(). */ if (unlock) { mbox_unlock_mailbox (ctx); mutt_unblock_signals (); } return (M_NEW_MAIL); /* signal that new mail arrived */ } else modified = 1; } else { dprint (1, (debugfile, "mbox_check_mailbox: fgets returned NULL.\n")); modified = 1; } } else modified = 1; } if (modified) { if (mutt_reopen_mailbox (ctx, index_hint) != -1) { if (unlock) { mbox_unlock_mailbox (ctx); mutt_unblock_signals (); } return (M_REOPENED); } } /* fatal error */ mbox_unlock_mailbox (ctx); mx_fastclose_mailbox (ctx); mutt_unblock_signals (); mutt_error _("Mailbox was corrupted!"); return (-1); } /* return values: * 0 success * -1 failure */ int mbox_sync_mailbox (CONTEXT *ctx, int *index_hint) { char tempfile[_POSIX_PATH_MAX]; char buf[32]; int i, j, save_sort = SORT_ORDER; int rc = -1; int need_sort = 0; /* flag to resort mailbox if new mail arrives */ int first = -1; /* first message to be written */ long offset; /* location in mailbox to write changed messages */ struct stat statbuf; struct utimbuf utimebuf; struct m_update_t *newOffset = NULL; struct m_update_t *oldOffset = NULL; FILE *fp = NULL; /* sort message by their position in the mailbox on disk */ if (Sort != SORT_ORDER) { save_sort = Sort; Sort = SORT_ORDER; mutt_sort_headers (ctx, 0); } /* need to open the file for writing in such a way that it does not truncate * the file, so use read-write mode. */ if ((ctx->fp = freopen (ctx->path, "r+", ctx->fp)) == NULL) { mx_fastclose_mailbox (ctx); mutt_error _("Fatal error! Could not reopen mailbox!"); return (-1); } mutt_block_signals (); if (mbox_lock_mailbox (ctx, 1, 1) == -1) { mutt_unblock_signals (); mutt_error _("Unable to lock mailbox!"); goto bail; } /* Check to make sure that the file hasn't changed on disk */ if ((i = mbox_check_mailbox (ctx, index_hint)) == M_NEW_MAIL || i == M_REOPENED) { /* new mail arrived, or mailbox reopened */ need_sort = i; rc = i; goto bail; } else if (i < 0) { /* fatal error */ Sort = save_sort; return (-1); } /* Create a temporary file to write the new version of the mailbox in. */ mutt_mktemp (tempfile); if ((i = open (tempfile, O_WRONLY | O_EXCL | O_CREAT, 0600)) == -1 || (fp = fdopen (i, "w")) == NULL) { if (-1 != i) { close (i); unlink (tempfile); } mutt_error _("Could not create temporary file!"); mutt_sleep (5); goto bail; } /* find the first deleted/changed message. we save a lot of time by only * rewriting the mailbox from the point where it has actually changed. */ for (i = 0 ; i < ctx->msgcount && !ctx->hdrs[i]->deleted && !ctx->hdrs[i]->changed && !ctx->hdrs[i]->attach_del; i++) ; if (i == ctx->msgcount) { /* this means ctx->changed or ctx->deleted was set, but no * messages were found to be changed or deleted. This should * never happen, is we presume it is a bug in mutt. */ mutt_error _("sync: mbox modified, but no modified messages! (report this bug)"); mutt_sleep(5); /* the mutt_error /will/ get cleared! */ dprint(1, (debugfile, "mbox_sync_mailbox(): no modified messages.\n")); unlink (tempfile); goto bail; } /* save the index of the first changed/deleted message */ first = i; /* where to start overwriting */ offset = ctx->hdrs[i]->offset; /* the offset stored in the header does not include the MMDF_SEP, so make * sure we seek to the correct location */ if (ctx->magic == M_MMDF) offset -= (sizeof MMDF_SEP - 1); else if (ctx->magic == M_KENDRA) offset -= (sizeof KENDRA_SEP - 1); /* allocate space for the new offsets */ newOffset = safe_calloc (ctx->msgcount - first, sizeof (struct m_update_t)); oldOffset = safe_calloc (ctx->msgcount - first, sizeof (struct m_update_t)); for (i = first, j = 0; i < ctx->msgcount; i++) { /* * back up some information which is needed to restore offsets when * something fails. */ oldOffset[i-first].valid = 1; oldOffset[i-first].hdr = ctx->hdrs[i]->offset; oldOffset[i-first].body = ctx->hdrs[i]->content->offset; oldOffset[i-first].lines = ctx->hdrs[i]->lines; oldOffset[i-first].length = ctx->hdrs[i]->content->length; if (! ctx->hdrs[i]->deleted) { j++; if (!ctx->quiet && WriteInc && ((i % WriteInc) == 0 || j == 1)) mutt_message (_("Writing messages... %d (%d%%)"), i, ftell (ctx->fp) / (ctx->size / 100 + 1)); if (ctx->magic == M_MMDF) { if (fputs (MMDF_SEP, fp) == EOF) { mutt_perror (tempfile); mutt_sleep (5); unlink (tempfile); goto bail; } } else if (ctx->magic == M_KENDRA) { if (fputs (KENDRA_SEP, fp) == EOF) { mutt_perror (tempfile); mutt_sleep (5); unlink (tempfile); goto bail; } } /* save the new offset for this message. we add `offset' because the * temporary file only contains saved message which are located after * `offset' in the real mailbox */ newOffset[i - first].hdr = ftell (fp) + offset; if (mutt_copy_message (fp, ctx, ctx->hdrs[i], M_CM_UPDATE, CH_FROM | CH_UPDATE | CH_UPDATE_LEN) == -1) { mutt_perror (tempfile); mutt_sleep (5); unlink (tempfile); goto bail; } /* Since messages could have been deleted, the offsets stored in memory * will be wrong, so update what we can, which is the offset of this * message, and the offset of the body. If this is a multipart message, * we just flush the in memory cache so that the message will be reparsed * if the user accesses it later. */ newOffset[i - first].body = ftell (fp) - ctx->hdrs[i]->content->length + offset; mutt_free_body (&ctx->hdrs[i]->content->parts); switch(ctx->magic) { case M_MMDF: if(fputs(MMDF_SEP, fp) == EOF) { mutt_perror (tempfile); mutt_sleep (5); unlink (tempfile); goto bail; } break; case M_KENDRA: if(fputs(KENDRA_SEP, fp) == EOF) { mutt_perror (tempfile); mutt_sleep (5); unlink (tempfile); goto bail; } break; default: if(fputs("\n", fp) == EOF) { mutt_perror (tempfile); mutt_sleep (5); unlink (tempfile); goto bail; } } } } if (fclose (fp) != 0) { fp = NULL; dprint(1, (debugfile, "mbox_sync_mailbox: fclose() returned non-zero.\n")); unlink (tempfile); mutt_perror (tempfile); mutt_sleep (5); goto bail; } fp = NULL; /* Save the state of this folder. */ if (stat (ctx->path, &statbuf) == -1) { mutt_perror (ctx->path); mutt_sleep (5); unlink (tempfile); goto bail; } if ((fp = fopen (tempfile, "r")) == NULL) { mutt_unblock_signals (); mx_fastclose_mailbox (ctx); dprint (1, (debugfile, "mbox_sync_mailbox: unable to reopen temp copy of mailbox!\n")); mutt_perror (tempfile); mutt_sleep (5); return (-1); } if (fseek (ctx->fp, offset, SEEK_SET) != 0 || /* seek the append location */ /* do a sanity check to make sure the mailbox looks ok */ fgets (buf, sizeof (buf), ctx->fp) == NULL || (ctx->magic == M_MBOX && mutt_strncmp ("From ", buf, 5) != 0) || (ctx->magic == M_MMDF && mutt_strcmp (MMDF_SEP, buf) != 0) || (ctx->magic == M_KENDRA && mutt_strcmp (KENDRA_SEP, buf) != 0)) { dprint (1, (debugfile, "mbox_sync_mailbox: message not in expected position.")); dprint (1, (debugfile, "\tLINE: %s\n", buf)); i = -1; } else { if (fseek (ctx->fp, offset, SEEK_SET) != 0) /* return to proper offset */ { i = -1; dprint (1, (debugfile, "mbox_sync_mailbox: fseek() failed\n")); } else { /* copy the temp mailbox back into place starting at the first * change/deleted message */ mutt_message _("Committing changes..."); i = mutt_copy_stream (fp, ctx->fp); if (ferror (ctx->fp)) i = -1; } if (i == 0) { ctx->size = ftell (ctx->fp); /* update the size of the mailbox */ ftruncate (fileno (ctx->fp), ctx->size); } } fclose (fp); fp = NULL; mbox_unlock_mailbox (ctx); if (fclose (ctx->fp) != 0 || i == -1) { /* error occured while writing the mailbox back, so keep the temp copy * around */ char savefile[_POSIX_PATH_MAX]; snprintf (savefile, sizeof (savefile), "%s/mutt.%s-%s-%d", NONULL (Tempdir), NONULL(Username), NONULL(Hostname), getpid ()); rename (tempfile, savefile); mutt_unblock_signals (); mx_fastclose_mailbox (ctx); mutt_pretty_mailbox (savefile); mutt_error (_("Write failed! Saved partial mailbox to %s"), savefile); mutt_sleep (5); return (-1); } /* Restore the previous access/modification times */ utimebuf.actime = statbuf.st_atime; utimebuf.modtime = statbuf.st_mtime; utime (ctx->path, &utimebuf); /* reopen the mailbox in read-only mode */ if ((ctx->fp = fopen (ctx->path, "r")) == NULL) { unlink (tempfile); mutt_unblock_signals (); mx_fastclose_mailbox (ctx); mutt_error _("Fatal error! Could not reopen mailbox!"); Sort = save_sort; return (-1); } /* update the offsets of the rewritten messages */ for (i = first, j = first; i < ctx->msgcount; i++) { if (!ctx->hdrs[i]->deleted) { ctx->hdrs[i]->offset = newOffset[i - first].hdr; ctx->hdrs[i]->content->hdr_offset = newOffset[i - first].hdr; ctx->hdrs[i]->content->offset = newOffset[i - first].body; ctx->hdrs[i]->index = j++; } } safe_free ((void **) &newOffset); safe_free ((void **) &oldOffset); unlink (tempfile); /* remove partial copy of the mailbox */ mutt_unblock_signals (); Sort = save_sort; /* Restore the default value. */ return (0); /* signal success */ bail: /* Come here in case of disaster */ safe_fclose (&fp); /* restore offsets, as far as they are valid */ if (first >= 0 && oldOffset) { for (i = first; i < ctx->msgcount && oldOffset[i-first].valid; i++) { ctx->hdrs[i]->offset = oldOffset[i-first].hdr; ctx->hdrs[i]->content->hdr_offset = oldOffset[i-first].hdr; ctx->hdrs[i]->content->offset = oldOffset[i-first].body; ctx->hdrs[i]->lines = oldOffset[i-first].lines; ctx->hdrs[i]->content->length = oldOffset[i-first].length; } } /* this is ok to call even if we haven't locked anything */ mbox_unlock_mailbox (ctx); mutt_unblock_signals (); safe_free ((void **) &newOffset); safe_free ((void **) &oldOffset); if ((ctx->fp = freopen (ctx->path, "r", ctx->fp)) == NULL) { mutt_error _("Could not reopen mailbox!"); mx_fastclose_mailbox (ctx); return (-1); } if (need_sort || save_sort != Sort) { Sort = save_sort; /* if the mailbox was reopened, the thread tree will be invalid so make * sure to start threading from scratch. */ mutt_sort_headers (ctx, (need_sort == M_REOPENED)); } return rc; } /* close a mailbox opened in write-mode */ int mbox_close_mailbox (CONTEXT *ctx) { mx_unlock_file (ctx->path, fileno (ctx->fp), 1); mutt_unblock_signals (); mx_fastclose_mailbox (ctx); return 0; } int mutt_reopen_mailbox (CONTEXT *ctx, int *index_hint) { int (*cmp_headers) (const HEADER *, const HEADER *) = NULL; HEADER **old_hdrs; int old_msgcount; int msg_mod = 0; int index_hint_set; int i, j; int rc = -1; /* silent operations */ ctx->quiet = 1; mutt_message _("Reopening mailbox..."); /* our heuristics require the old mailbox to be unsorted */ if (Sort != SORT_ORDER) { short old_sort; old_sort = Sort; Sort = SORT_ORDER; mutt_sort_headers (ctx, 1); Sort = old_sort; } old_hdrs = NULL; old_msgcount = 0; /* simulate a close */ if (ctx->id_hash) hash_destroy (&ctx->id_hash, NULL); mutt_clear_threads (ctx); safe_free ((void **) &ctx->v2r); if (ctx->readonly) { for (i = 0; i < ctx->msgcount; i++) mutt_free_header (&(ctx->hdrs[i])); /* nothing to do! */ safe_free ((void **) &ctx->hdrs); } else { /* save the old headers */ old_msgcount = ctx->msgcount; old_hdrs = ctx->hdrs; ctx->hdrs = NULL; } ctx->hdrmax = 0; /* force allocation of new headers */ ctx->msgcount = 0; ctx->vcount = 0; ctx->tagged = 0; ctx->deleted = 0; ctx->new = 0; ctx->unread = 0; ctx->flagged = 0; ctx->changed = 0; ctx->id_hash = NULL; switch (ctx->magic) { case M_MBOX: case M_MMDF: case M_KENDRA: if (fseek (ctx->fp, 0, SEEK_SET) != 0) { dprint (1, (debugfile, "mutt_reopen_mailbox: fseek() failed\n")); rc = -1; } else { cmp_headers = mbox_strict_cmp_headers; rc = ((ctx->magic == M_MBOX) ? mbox_parse_mailbox : mmdf_parse_mailbox) (ctx); } break; default: rc = -1; break; } if (rc == -1) { /* free the old headers */ for (j = 0; j < old_msgcount; j++) mutt_free_header (&(old_hdrs[j])); safe_free ((void **) &old_hdrs); ctx->quiet = 0; return (-1); } /* now try to recover the old flags */ index_hint_set = (index_hint == NULL); if (!ctx->readonly) { for (i = 0; i < ctx->msgcount; i++) { int found = 0; /* some messages have been deleted, and new messages have been * appended at the end; the heuristic is that old messages have then * "advanced" towards the beginning of the folder, so we begin the * search at index "i" */ for (j = i; j < old_msgcount; j++) { if (old_hdrs[j] == NULL) continue; if (cmp_headers (ctx->hdrs[i], old_hdrs[j])) { found = 1; break; } } if (!found) { for (j = 0; j < i && j < old_msgcount; j++) { if (old_hdrs[j] == NULL) continue; if (cmp_headers (ctx->hdrs[i], old_hdrs[j])) { found = 1; break; } } } if (found) { /* this is best done here */ if (!index_hint_set && *index_hint == j) *index_hint = i; if (old_hdrs[j]->changed) { /* Only update the flags if the old header was changed; * otherwise, the header may have been modified externally, * and we don't want to lose _those_ changes */ mutt_set_flag (ctx, ctx->hdrs[i], M_FLAG, old_hdrs[j]->flagged); mutt_set_flag (ctx, ctx->hdrs[i], M_REPLIED, old_hdrs[j]->replied); mutt_set_flag (ctx, ctx->hdrs[i], M_OLD, old_hdrs[j]->old); mutt_set_flag (ctx, ctx->hdrs[i], M_READ, old_hdrs[j]->read); } mutt_set_flag (ctx, ctx->hdrs[i], M_DELETE, old_hdrs[j]->deleted); mutt_set_flag (ctx, ctx->hdrs[i], M_TAG, old_hdrs[j]->tagged); /* we don't need this header any more */ mutt_free_header (&(old_hdrs[j])); } } /* free the remaining old headers */ for (j = 0; j < old_msgcount; j++) { if (old_hdrs[j]) { mutt_free_header (&(old_hdrs[j])); msg_mod = 1; } } safe_free ((void **) &old_hdrs); } ctx->quiet = 0; return ((ctx->changed || msg_mod) ? M_REOPENED : M_NEW_MAIL); }