uid.c   [plain text]

/**
 * \file uid.c -- UIDL handling for POP3 servers without LAST
 *
 * For license terms, see the file COPYING in this directory.
 */

#include "config.h"

#include <sys/stat.h>
#include <errno.h>
#include <stdio.h>
#include <limits.h>
#if defined(STDC_HEADERS)
#include <stdlib.h>
#include <string.h>
#endif
#if defined(HAVE_UNISTD_H)
#include <unistd.h>
#endif

#include "fetchmail.h"
#include "i18n.h"

/*
 * Machinery for handling UID lists live here.  This is mainly to support
 * RFC1725/RFC1939-conformant POP3 servers without a LAST command, but may also
 * be useful for making the IMAP4 querying logic UID-oriented, if a future
 * revision of IMAP forces me to.
 *
 * These functions are also used by the rest of the code to maintain
 * string lists.
 *
 * Here's the theory:
 *
 * At start of a query, we have a (possibly empty) list of UIDs to be
 * considered seen in `oldsaved'.  These are messages that were left in
 * the mailbox and *not deleted* on previous queries (we don't need to
 * remember the UIDs of deleted messages because ... well, they're gone!)
 * This list is initially set up by initialize_saved_list() from the
 * .fetchids file.
 *
 * Early in the query, during the execution of the protocol-specific
 * getrange code, the driver expects that the host's `newsaved' member
 * will be filled with a list of UIDs and message numbers representing
 * the mailbox state.  If this list is empty, the server did
 * not respond to the request for a UID listing.
 *
 * Each time a message is fetched, we can check its UID against the
 * `oldsaved' list to see if it is old.
 *
 * Each time a message-id is seen, we mark it with MARK_SEEN.
 *
 * Each time a message is deleted, we mark its id UID_DELETED in the
 * `newsaved' member.  When we want to assert that an expunge has been
 * done on the server, we call expunge_uid() to register that all
 * deleted messages are gone by marking them UID_EXPUNGED.
 *
 * At the end of the query, the `newsaved' member becomes the
 * `oldsaved' list.  The old `oldsaved' list is freed.
 *
 * At the end of the fetchmail run, seen and non-EXPUNGED members of all
 * current `oldsaved' lists are flushed out to the .fetchids file to
 * be picked up by the next run.  If there are no un-expunged
 * messages, the file is deleted.
 *
 * One disadvantage of UIDL is that all the UIDs have to be downloaded
 * before a search for new messages can be done. Typically, new messages
 * are appended to mailboxes. Hence, downloading all UIDs just to download
 * a few new mails is a waste of bandwidth. If new messages are always at
 * the end of the mailbox, fast UIDL will decrease the time required to
 * download new mails.
 *
 * During fast UIDL, the UIDs of all messages are not downloaded! The first
 * unseen message is searched for by using a binary search on UIDs. UIDs
 * after the first unseen message are downloaded as and when needed.
 *
 * The advantages of fast UIDL are (this is noticeable only when the
 * mailbox has too many mails):
 *
 * - There is no need to download the UIDs of all mails right at the start.
 * - There is no need to save all the UIDs in memory separately in
 * `newsaved' list.
 * - There is no need to download the UIDs of seen mail (except for the
 * first binary search).
 * - The first new mail is downloaded considerably faster.
 *
 * The disadvantages are:
 *
 * - Since all UIDs are not downloaded, it is not possible to swap old and
 * new list. The current state of the mailbox is essentially a merged state
 * of old and new mails.
 * - If an intermediate mail has been temporarily refused (say, due to 4xx
 * code from the smtp server), this mail may not get downloaded.
 * - If 'flush' is used, such intermediate mails will also get deleted.
 *
 * The first two disadvantages can be overcome by doing a linear search
 * once in a while (say, every 10th poll). Also, with flush, fast UIDL
 * should be disabled.
 *
 * Note: some comparisons (those used for DNS address lists) are caseblind!
 */

int dofastuidl = 0;

/* UIDs associated with un-queried hosts */
static struct idlist *scratchlist;

#ifdef POP3_ENABLE
void initialize_saved_lists(struct query *hostlist, const char *idfile)
/* read file of saved IDs and attach to each host */
{
    struct stat statbuf;
    FILE	*tmpfp;
    struct query *ctl;

    /* make sure lists are initially empty */
    for (ctl = hostlist; ctl; ctl = ctl->next) {
	ctl->skipped = (struct idlist *)NULL;
	ctl->oldsaved = (struct idlist *)NULL;
	ctl->newsaved = (struct idlist *)NULL;
	ctl->oldsavedend = &ctl->oldsaved;
    }

    errno = 0;

    /*
     * Croak if the uidl directory does not exist.
     * This probably means an NFS mount failed and we can't
     * see a uidl file that ought to be there.
     * Question: is this a portable check? It's not clear
     * that all implementations of lstat() will return ENOTDIR
     * rather than plain ENOENT in this case...
     */
    if (lstat(idfile, &statbuf) < 0) {
	if (errno == ENOTDIR)
	{
	    report(stderr, "lstat: %s: %s\n", idfile, strerror(errno));
	    exit(PS_IOERR);
	}
    }

    /* let's get stored message UIDs from previous queries */
    if ((tmpfp = fopen(idfile, "r")) != (FILE *)NULL)
    {
	char buf[POPBUFSIZE+1];
	char *host = NULL;	/* pacify -Wall */
	char *user;
	char *id;
	char *atsign;	/* temp pointer used in parsing user and host */
	char *delimp1;
	char saveddelim1;
	char *delimp2;
	char saveddelim2 = '\0';	/* pacify -Wall */

	while (fgets(buf, POPBUFSIZE, tmpfp) != (char *)NULL)
	{
	    /*
	     * At this point, we assume the bug has two fields -- a user@host 
	     * part, and an ID part. Either field may contain spurious @ signs.
	     * The previous version of this code presumed one could split at 
	     * the rightmost '@'.  This is not correct, as InterMail puts an 
	     * '@' in the UIDL.
	     */
	  
	    /* first, skip leading spaces */
	    user = buf + strspn(buf, " \t");

	    /*
	     * First, we split the buf into a userhost part and an id
	     * part ... but id doesn't necessarily start with a '<',
	     * espescially if the POP server returns an X-UIDL header
	     * instead of a Message-ID, as GMX's (www.gmx.net) POP3
	     * StreamProxy V1.0 does.
	     *
	     * this is one other trick. The userhost part 
	     * may contain ' ' in the user part, at least in
	     * the lotus notes case.
	     * So we start looking for the '@' after which the
	     * host will follow with the ' ' seperator finaly id.
	     *
	     * XXX FIXME: There is a case this code cannot handle:
	     * the user name cannot have blanks after a '@'.
	     */
	    if ((delimp1 = strchr(user, '@')) != NULL &&
		(id = strchr(delimp1,' ')) != NULL)
	    {
	        for (delimp1 = id; delimp1 >= user; delimp1--)
		    if ((*delimp1 != ' ') && (*delimp1 != '\t'))
			break;

		/* 
		 * It should be safe to assume that id starts after
		 * the " " - after all, we're writing the " "
		 * ourselves in write_saved_lists() :-)
		 */
		id = id + strspn(id, " ");

		delimp1++; /* but what if there is only white space ?!? */
		/* we have at least one @, else we are not in this branch */
		saveddelim1 = *delimp1;		/* save char after token */
		*delimp1 = '\0';		/* delimit token with \0 */

		/* now remove trailing white space chars from id */
		if ((delimp2 = strpbrk(id, " \t\n")) != NULL ) {
		    saveddelim2 = *delimp2;
		    *delimp2 = '\0';
		}

		atsign = strrchr(user, '@');
		/* we have at least one @, else we are not in this branch */
		*atsign = '\0';
		host = atsign + 1;

		/* find proper list and save it */
		for (ctl = hostlist; ctl; ctl = ctl->next) {
		    if (strcasecmp(host, ctl->server.queryname) == 0
			    && strcasecmp(user, ctl->remotename) == 0) {
			save_str(&ctl->oldsaved, id, UID_SEEN);
			break;
		    }
		}
		/* 
		 * If it's not in a host we're querying,
		 * save it anyway.  Otherwise we'd lose UIDL
		 * information any time we queried an explicit
		 * subset of hosts.
		 */
		if (ctl == (struct query *)NULL) {
		    /* restore string */
		    *delimp1 = saveddelim1;
		    *atsign = '@';
		    if (delimp2 != NULL) {
			*delimp2 = saveddelim2;
		    }
		    save_str(&scratchlist, buf, UID_SEEN);
		}
	    }
	}
	fclose(tmpfp);	/* not checking should be safe, mode was "r" */
    }

    if (outlevel >= O_DEBUG)
    {
	struct idlist	*idp;
	int uidlcount = 0;

	for (ctl = hostlist; ctl; ctl = ctl->next)
	    if (ctl->server.uidl)
	    {
		report_build(stdout, GT_("Old UID list from %s:"), 
			     ctl->server.pollname);
		for (idp = ctl->oldsaved; idp; idp = idp->next)
		    report_build(stdout, " %s", idp->id);
		if (!idp)
		    report_build(stdout, GT_(" <empty>"));
		report_complete(stdout, "\n");
		uidlcount++;
	    }

	if (uidlcount)
	{
	    report_build(stdout, GT_("Scratch list of UIDs:"));
	    for (idp = scratchlist; idp; idp = idp->next)
		report_build(stdout, " %s", idp->id);
	    if (!idp)
		report_build(stdout, GT_(" <empty>"));
	    report_complete(stdout, "\n");
	}
    }
}
#endif /* POP3_ENABLE */

/* return a pointer to the last element of the list to help the quick,
 * constant-time addition to the list, NOTE: this function does not dup
 * the string, the caller must do that. */
/*@shared@*/ static struct idlist **save_str_quick(/*@shared@*/ struct idlist **idl,
			       /*@only@*/ char *str, flag status)
/* save a number/UID pair on the given UID list */
{
    struct idlist **end;

    /* do it nonrecursively so the list is in the right order */
    for (end = idl; *end; end = &(*end)->next)
	continue;

    *end = (struct idlist *)xmalloc(sizeof(struct idlist));
    (*end)->id = str;
    (*end)->val.status.mark = status;
    (*end)->val.status.num = 0;
    (*end)->next = NULL;

    return end;
}

/* return the end list element for direct modification */
struct idlist *save_str(struct idlist **idl, const char *str, flag st)
{
    return *save_str_quick(idl, str ? xstrdup(str) : NULL, st);
}

void free_str_list(struct idlist **idl)
/* free the given UID list */
{
    struct idlist *i = *idl;

    while(i) {
	struct idlist *t = i->next;
	free(i->id);
	free(i);
	i = t;
    }
    *idl = 0;
}

void save_str_pair(struct idlist **idl, const char *str1, const char *str2)
/* save an ID pair on the given list */
{
    struct idlist **end;

    /* do it nonrecursively so the list is in the right order */
    for (end = idl; *end; end = &(*end)->next)
	continue;

    *end = (struct idlist *)xmalloc(sizeof(struct idlist));
    (*end)->id = str1 ? xstrdup(str1) : (char *)NULL;
    if (str2)
	(*end)->val.id2 = xstrdup(str2);
    else
	(*end)->val.id2 = (char *)NULL;
    (*end)->next = (struct idlist *)NULL;
}

#ifdef __UNUSED__
void free_str_pair_list(struct idlist **idl)
/* free the given ID pair list */
{
    if (*idl == (struct idlist *)NULL)
	return;

    free_idpair_list(&(*idl)->next);
    free ((*idl)->id);
    free ((*idl)->val.id2);
    free(*idl);
    *idl = (struct idlist *)NULL;
}
#endif

struct idlist *str_in_list(struct idlist **idl, const char *str, const flag caseblind)
/* is a given ID in the given list? (comparison may be caseblind) */
{
    struct idlist *walk;
    if (caseblind) {
	for( walk = *idl; walk; walk = walk->next )
	    if( strcasecmp( str, walk->id) == 0 )
		return walk;
    } else {
	for( walk = *idl; walk; walk = walk->next )
	    if( strcmp( str, walk->id) == 0 )
		return walk;
    }
    return NULL;
}

/** return the position of first occurrence of \a str in \a idl */
int str_nr_in_list(struct idlist **idl, const char *str)
{
    int nr;
    struct idlist *walk;

    if (!str)
        return -1;
    for (walk = *idl, nr = 0; walk; nr ++, walk = walk->next)
        if (strcmp(str, walk->id) == 0)
	    return nr;
    return -1;
}

int str_nr_last_in_list( struct idlist **idl, const char *str)
/* return the last position of str in idl */
{
    int nr, ret = -1;
    struct idlist *walk;
    if ( !str )
        return -1;
    for( walk = *idl, nr = 0; walk; nr ++, walk = walk->next )
        if( strcmp( str, walk->id) == 0 )
	    ret = nr;
    return ret;
}

void str_set_mark( struct idlist **idl, const char *str, const flag val)
/* update the mark on an of an id to given value */
{
    int nr;
    struct idlist *walk;
    if (!str)
        return;
    for(walk = *idl, nr = 0; walk; nr ++, walk = walk->next)
        if (strcmp(str, walk->id) == 0)
	    walk->val.status.mark = val;
}

int count_list( struct idlist **idl)
/* count the number of elements in the list */
{
  if( !*idl )
    return 0;
  return 1 + count_list( &(*idl)->next );
}

/*@null@*/ char *str_from_nr_list(struct idlist **idl, long number)
/* return the number'th string in idl */
{
    if( !*idl  || number < 0)
        return 0;
    if( number == 0 )
        return (*idl)->id;
    return str_from_nr_list(&(*idl)->next, number-1);
}


char *str_find(struct idlist **idl, long number)
/* return the id of the given number in the given list. */
{
    if (*idl == (struct idlist *) 0)
	return((char *) 0);
    else if (number == (*idl)->val.status.num)
	return((*idl)->id);
    else
	return(str_find(&(*idl)->next, number));
}

struct idlist *id_find(struct idlist **idl, long number)
/* return the id of the given number in the given list. */
{
    struct idlist	*idp;
    for (idp = *idl; idp; idp = idp->next)
	if (idp->val.status.num == number)
	    return(idp);
    return(0);
}

char *idpair_find(struct idlist **idl, const char *id)
/* return the id of the given id in the given list (caseblind comparison) */
{
    if (*idl == (struct idlist *) 0)
	return((char *) 0);
    else if (strcasecmp(id, (*idl)->id) == 0)
	return((*idl)->val.id2 ? (*idl)->val.id2 : (*idl)->id);
    else
	return(idpair_find(&(*idl)->next, id));
}

int delete_str(struct idlist **idl, long num)
/* delete given message from given list */
{
    struct idlist	*idp;

    for (idp = *idl; idp; idp = idp->next)
	if (idp->val.status.num == num)
	{
	    idp->val.status.mark = UID_DELETED;
	    return(1);
	}
    return(0);
}

struct idlist *copy_str_list(struct idlist *idl)
/* copy the given UID list */
{
    struct idlist *newnode ;

    if (idl == (struct idlist *)NULL)
	return(NULL);
    else
    {
	newnode = (struct idlist *)xmalloc(sizeof(struct idlist));
	memcpy(newnode, idl, sizeof(struct idlist));
	newnode->next = copy_str_list(idl->next);
	return(newnode);
    }
}

void append_str_list(struct idlist **idl, struct idlist **nidl)
/* append nidl to idl (does not copy *) */
{
    if ((*nidl) == (struct idlist *)NULL || *nidl == *idl)
	return;
    else if ((*idl) == (struct idlist *)NULL)
	*idl = *nidl;
    else if ((*idl)->next == (struct idlist *)NULL)
	(*idl)->next = *nidl;
    else if ((*idl)->next != *nidl)
	append_str_list(&(*idl)->next, nidl);
}

#ifdef POP3_ENABLE
void expunge_uids(struct query *ctl)
/* assert that all UIDs marked deleted have actually been expunged */
{
    struct idlist *idl;

    for (idl = dofastuidl ? ctl->oldsaved : ctl->newsaved; idl; idl = idl->next)
	if (idl->val.status.mark == UID_DELETED)
	    idl->val.status.mark = UID_EXPUNGED;
}

void uid_swap_lists(struct query *ctl) 
/* finish a query */
{
    /* debugging code */
    if (ctl->server.uidl && outlevel >= O_DEBUG)
    {
	struct idlist *idp;

	if (dofastuidl)
	    report_build(stdout, GT_("Merged UID list from %s:"), ctl->server.pollname);
	else
	    report_build(stdout, GT_("New UID list from %s:"), ctl->server.pollname);
	for (idp = dofastuidl ? ctl->oldsaved : ctl->newsaved; idp; idp = idp->next)
	    report_build(stdout, " %s = %d", idp->id, idp->val.status.mark);
	if (!idp)
	    report_build(stdout, GT_(" <empty>"));
	report_complete(stdout, "\n");
    }

    /*
     * Don't swap UID lists unless we've actually seen UIDLs.
     * This is necessary in order to keep UIDL information
     * from being heedlessly deleted later on.
     *
     * Older versions of fetchmail did
     *
     *     free_str_list(&scratchlist);
     *
     * after swap.  This was wrong; we need to preserve the UIDL information
     * from unqueried hosts.  Unfortunately, not doing this means that
     * under some circumstances UIDLs can end up being stored forever --
     * specifically, if a user description is removed from .fetchmailrc
     * with UIDLs from that account in .fetchids, there is no way for
     * them to ever get garbage-collected.
     */
    if (ctl->newsaved)
    {
	/* old state of mailbox may now be irrelevant */
	struct idlist *temp = ctl->oldsaved;
	if (outlevel >= O_DEBUG)
	    report(stdout, GT_("swapping UID lists\n"));
	ctl->oldsaved = ctl->newsaved;
	ctl->newsaved = (struct idlist *) NULL;
	free_str_list(&temp);
    }
    /* in fast uidl, there is no need to swap lists: the old state of
     * mailbox cannot be discarded! */
    else if (outlevel >= O_DEBUG && !dofastuidl)
	report(stdout, GT_("not swapping UID lists, no UIDs seen this query\n"));
}

void uid_discard_new_list(struct query *ctl)
/* finish a query which had errors */
{
    /* debugging code */
    if (ctl->server.uidl && outlevel >= O_DEBUG)
    {
	struct idlist *idp;

	/* this is now a merged list! the mails which were seen in this
	 * poll are marked here. */
	report_build(stdout, GT_("Merged UID list from %s:"), ctl->server.pollname);
	for (idp = ctl->oldsaved; idp; idp = idp->next)
	    report_build(stdout, " %s = %d", idp->id, idp->val.status.mark);
	if (!idp)
	    report_build(stdout, GT_(" <empty>"));
	report_complete(stdout, "\n");
    }

    if (ctl->newsaved)
    {
	/* new state of mailbox is not reliable */
	if (outlevel >= O_DEBUG)
	    report(stdout, GT_("discarding new UID list\n"));
	free_str_list(&ctl->newsaved);
	ctl->newsaved = (struct idlist *) NULL;
    }
}

void uid_reset_num(struct query *ctl)
/* reset the number associated with each id */
{
    struct idlist *idp;
    for (idp = ctl->oldsaved; idp; idp = idp->next)
	idp->val.status.num = 0;
}

void write_saved_lists(struct query *hostlist, const char *idfile)
/* perform end-of-run write of seen-messages list */
{
    long	idcount;
    FILE	*tmpfp;
    struct query *ctl;
    struct idlist *idp;

    /* if all lists are empty, nuke the file */
    idcount = 0;
    for (ctl = hostlist; ctl; ctl = ctl->next) {
	for (idp = ctl->oldsaved; idp; idp = idp->next)
	    if (idp->val.status.mark == UID_SEEN
		    || idp->val.status.mark == UID_DELETED)
		idcount++;
    }

    /* either nuke the file or write updated last-seen IDs */
    if (!idcount && !scratchlist)
    {
	if (outlevel >= O_DEBUG) {
	    if (access(idfile, F_OK) == 0)
		    report(stdout, GT_("Deleting fetchids file.\n"));
	}
	if (unlink(idfile) && errno != ENOENT)
	    report(stderr, GT_("Error deleting %s: %s\n"), idfile, strerror(errno));
    } else {
	char *newnam = (char *)xmalloc(strlen(idfile) + 2);
	strcpy(newnam, idfile);
	strcat(newnam, "_");
	if (outlevel >= O_DEBUG)
	    report(stdout, GT_("Writing fetchids file.\n"));
	(void)unlink(newnam); /* remove file/link first */
	if ((tmpfp = fopen(newnam, "w")) != (FILE *)NULL) {
	    int errflg;
	    for (ctl = hostlist; ctl; ctl = ctl->next) {
		for (idp = ctl->oldsaved; idp; idp = idp->next)
		    if (idp->val.status.mark == UID_SEEN
				|| idp->val.status.mark == UID_DELETED)
			fprintf(tmpfp, "%s@%s %s\n", 
			    ctl->remotename, ctl->server.queryname, idp->id);
	    }
	    for (idp = scratchlist; idp; idp = idp->next)
		fputs(idp->id, tmpfp);
	    fflush(tmpfp);
	    errflg = ferror(tmpfp);
	    fclose(tmpfp);
	    /* if we could write successfully, move into place;
	     * otherwise, drop */
	    if (errflg) {
		report(stderr, GT_("Error writing to fetchids file %s, old file left in place.\n"), newnam);
		unlink(newnam);
	    } else {
		if (rename(newnam, idfile)) {
		    report(stderr, GT_("Cannot rename fetchids file %s to %s: %s\n"), newnam, idfile, strerror(errno));
		}
	    }
	} else {
	    report(stderr, GT_("Cannot open fetchids file %s for writing: %s\n"), newnam, strerror(errno));
	}
	free(newnam);
    }
}
#endif /* POP3_ENABLE */

/* uid.c ends here */