-/*
- * This module handles the expiry of old messages and the purging of old users.
- *
- * You might also see this module affectionately referred to as the DAP (the Dreaded Auto-Purger).
- *
- * Copyright (c) 1988-2017 by citadel.org (Art Cancro, Wilifried Goesgens, and others)
- *
- * This program is open source 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 3 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.
- *
- * A brief technical discussion:
- *
- * Several of the purge operations found in this module operate in two
- * stages: the first stage generates a linked list of objects to be deleted,
- * then the second stage deletes all listed objects from the database.
- *
- * At first glance this may seem cumbersome and unnecessary. The reason it is
- * implemented in this way is because Berkeley DB, and possibly other backends
- * we may hook into in the future, explicitly do _not_ support the deletion of
- * records from a file while the file is being traversed. The delete operation
- * will succeed, but the traversal is not guaranteed to visit every object if
- * this is done. Therefore we utilize the two-stage purge.
- *
- * When using Berkeley DB, there's another reason for the two-phase purge: we
- * don't want the entire thing being done as one huge transaction.
- *
- * You'll also notice that we build the in-memory list of records to be deleted
- * sometimes with a linked list and sometimes with a hash table. There is no
- * reason for this aside from the fact that the linked list ones were written
- * before we had the hash table library available.
- */
+// This module handles the expiry of old messages and the purging of old users.
+//
+// You might also see this module affectionately referred to as TDAP (The Dreaded Auto-Purger).
+//
+// Copyright (c) 1988-2022 by citadel.org (Art Cancro, Wilifried Goesgens, and others)
+//
+// This program is open source 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 3 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.
#include "sysdep.h"
#include <pwd.h>
#include <errno.h>
#include <sys/types.h>
-
-#if TIME_WITH_SYS_TIME
-# include <sys/time.h>
-# include <time.h>
-#else
-# if HAVE_SYS_TIME_H
-# include <sys/time.h>
-# else
-# include <time.h>
-# endif
-#endif
-
+#include <time.h>
#include <sys/wait.h>
#include <string.h>
#include <limits.h>
struct PurgeList {
struct PurgeList *next;
- char name[ROOMNAMELEN]; /* use the larger of username or roomname */
+ char name[ROOMNAMELEN]; // use the larger of username or roomname
};
struct VPurgeList {
char *users_corrupt_msg = NULL;
char *users_zero_msg = NULL;
struct ctdlroomref *rr = NULL;
-int force_purge_now = 0; /* set to nonzero to force a run right now */
+int force_purge_now = 0; // set to nonzero to force a run right now
-/*
- * First phase of message purge -- gather the locations of messages which
- * qualify for purging and write them to a temp file.
- */
+// First phase of message purge -- gather the locations of messages which
+// qualify for purging and write them to a temp file.
void GatherPurgeMessages(struct ctdlroom *qrbuf, void *data) {
struct ExpirePolicy epbuf;
long delnum;
time(&now);
GetExpirePolicy(&epbuf, qrbuf);
- /* If the room is set to never expire messages ... do nothing */
+ // If the room is set to never expire messages ... do nothing
if (epbuf.expire_mode == EXPIRE_NEXTLEVEL) return;
if (epbuf.expire_mode == EXPIRE_MANUAL) return;
- /* Don't purge messages containing system configuration, dumbass. */
+ // Don't purge messages containing system configuration, dumbass.
if (!strcasecmp(qrbuf->QRname, SYSCONFIGROOM)) return;
- /* Ok, we got this far ... now let's see what's in the room */
+ // Ok, we got this far ... now let's see what's in the room.
cdbfr = cdb_fetch(CDB_MSGLISTS, &qrbuf->QRnumber, sizeof(long));
if (cdbfr != NULL) {
cdb_free(cdbfr);
}
- /* Nothing to do if there aren't any messages */
+ // Nothing to do if there aren't any messages
if (num_msgs == 0) {
if (msglist != NULL) free(msglist);
return;
}
- /* If the room is set to expire by count, do that */
+ // If the room is set to expire by count, do that.
if (epbuf.expire_mode == EXPIRE_NUMMSGS) {
if (num_msgs > epbuf.expire_value) {
for (a=0; a<(num_msgs - epbuf.expire_value); ++a) {
}
}
- /* If the room is set to expire by age... */
+ // If the room is set to expire by age...
if (epbuf.expire_mode == EXPIRE_AGE) {
for (a=0; a<num_msgs; ++a) {
delnum = msglist[a];
- msg = CtdlFetchMessage(delnum, 0, 1); /* dont need body */
+ msg = CtdlFetchMessage(delnum, 0); // don't need the body
if (msg != NULL) {
xtime = atol(msg->cm_fields[eTimestamp]);
CM_Free(msg);
- } else {
+ }
+ else {
xtime = 0L;
}
- if ((xtime > 0L)
- && (now - xtime > (time_t)(epbuf.expire_value * 86400L))) {
+ if ((xtime > 0L) && (now - xtime > (time_t)(epbuf.expire_value * 86400L))) {
fprintf(purgelist, "m=%ld\n", delnum);
++messages_purged;
}
}
-/*
- * Second phase of message purge -- read list of msgs from temp file and
- * delete them.
- */
+// Second phase of message purge -- read list of msgs from temp file and delete them.
void DoPurgeMessages(FILE *purgelist) {
char roomname[ROOMNAMELEN];
long msgnum;
}
-void AddValidUser(struct ctdluser *usbuf, void *data) {
+void AddValidUser(char *username, void *data) {
struct ValidUser *vuptr;
+ struct ctdluser usbuf;
+
+ if (CtdlGetUser(&usbuf, username) != 0) {
+ return;
+ }
vuptr = (struct ValidUser *)malloc(sizeof(struct ValidUser));
vuptr->next = ValidUserList;
- vuptr->vu_usernum = usbuf->usernum;
+ vuptr->vu_usernum = usbuf.usernum;
ValidUserList = vuptr;
}
+
void AddValidRoom(struct ctdlroom *qrbuf, void *data) {
struct ValidRoom *vrptr;
ValidRoomList = vrptr;
}
+
void DoPurgeRooms(struct ctdlroom *qrbuf, void *data) {
time_t age, purge_secs;
struct PurgeList *pptr;
struct ValidUser *vuptr;
int do_purge = 0;
- /* For mailbox rooms, there's only one purging rule: if the user who
- * owns the room still exists, we keep the room; otherwise, we purge
- * it. Bypass any other rules.
- */
+ // For mailbox rooms, there's only one purging rule: if the user who
+ // owns the room still exists, we keep the room; otherwise, we purge
+ // it. Bypass any other rules.
if (qrbuf->QRflags & QR_MAILBOX) {
- /* if user not found, do_purge will be 1 */
+ // if user not found, do_purge will be 1
do_purge = 1;
for (vuptr=ValidUserList; vuptr!=NULL; vuptr=vuptr->next) {
if (vuptr->vu_usernum == atol(qrbuf->QRname)) {
}
}
else {
- /* Any of these attributes render a room non-purgable */
+ // Any of these attributes render a room non-purgable
if (qrbuf->QRflags & QR_PERMANENT) return;
if (qrbuf->QRflags & QR_DIRECTORY) return;
if (qrbuf->QRflags & QR_NETWORK) return;
if (!strcasecmp(qrbuf->QRname, SYSCONFIGROOM)) return;
if (CtdlIsNonEditable(qrbuf)) return;
- /* If we don't know the modification date, be safe and don't purge */
+ // If we don't know the modification date, be safe and don't purge
if (qrbuf->QRmtime <= (time_t)0) return;
- /* If no room purge time is set, be safe and don't purge */
+ // If no room purge time is set, be safe and don't purge
if (CtdlGetConfigLong("c_roompurge") < 0) return;
- /* Otherwise, check the date of last modification */
+ // Otherwise, check the date of last modification
age = time(NULL) - (qrbuf->QRmtime);
purge_secs = CtdlGetConfigLong("c_roompurge") * 86400;
if (purge_secs <= (time_t)0) return;
syslog(LOG_DEBUG, "<%s> is <%ld> seconds old", qrbuf->QRname, (long)age);
if (age > purge_secs) do_purge = 1;
- } /* !QR_MAILBOX */
+ } // !QR_MAILBOX
if (do_purge) {
pptr = (struct PurgeList *) malloc(sizeof(struct PurgeList));
syslog(LOG_DEBUG, "PurgeRooms() called");
- /* Load up a table full of valid user numbers so we can delete
- * user-owned rooms for users who no longer exist */
+ // Load up a table full of valid user numbers so we can delete
+ // user-owned rooms for users who no longer exist
ForEachUser(AddValidUser, NULL);
- /* Then cycle through the room file */
+ // Then cycle through the room file
CtdlForEachRoom(DoPurgeRooms, NULL);
- /* Free the valid user list */
+ // Free the valid user list
while (ValidUserList != NULL) {
vuptr = ValidUserList->next;
free(ValidUserList);
}
-/*
- * Back end function to check user accounts for associated Unix accounts
- * which no longer exist. (Only relevant for host auth mode.)
- */
-void do_uid_user_purge(struct ctdluser *us, void *data) {
- struct PurgeList *pptr;
-
- if ((us->uid != (-1)) && (us->uid != CTDLUID)) {
- if (getpwuid(us->uid) == NULL) {
- pptr = (struct PurgeList *)
- malloc(sizeof(struct PurgeList));
- pptr->next = UserPurgeList;
- strcpy(pptr->name, us->fullname);
- UserPurgeList = pptr;
- }
- }
- else {
- ++users_not_purged;
- }
-}
-
-
-/*
- * Back end function to check user accounts for expiration.
- */
-void do_user_purge(struct ctdluser *us, void *data) {
+// Back end function to check user accounts for expiration.
+void do_user_purge(char *username, void *data) {
int purge;
time_t now;
time_t purge_time;
struct PurgeList *pptr;
+ struct ctdluser us;
+
+ if (CtdlGetUser(&us, username) != 0) {
+ return;
+ }
- /* Set purge time; if the user overrides the system default, use it */
- if (us->USuserpurge > 0) {
- purge_time = ((time_t)us->USuserpurge) * 86400;
+ // Set purge time; if the user overrides the system default, use it
+ if (us.USuserpurge > 0) {
+ purge_time = ((time_t)us.USuserpurge) * 86400;
}
else {
purge_time = CtdlGetConfigLong("c_userpurge") * 86400;
}
- /* The default rule is to not purge. */
+ // The default rule is to not purge.
purge = 0;
- /* If the user hasn't called in two months and expiring of accounts is turned on, his/her account
- * has expired, so purge the record.
- */
- if (CtdlGetConfigLong("c_userpurge") > 0)
- {
+ // If the user has not logged in for the configured amount of time, expire the account.
+ if (CtdlGetConfigLong("c_userpurge") > 0) {
now = time(NULL);
- if ((now - us->lastcall) > purge_time) purge = 1;
+ if ((now - us.lastcall) > purge_time) purge = 1;
}
- /* If the record is marked as permanent, don't purge it.
- */
- if (us->flags & US_PERM) purge = 0;
+ // If the account is marked as permanent, don't purge it.
+ if (us.flags & US_PERM) purge = 0;
- /* If the user is an Aide, don't purge him/her/it.
- */
- if (us->axlevel == 6) purge = 0;
+ // If the account is an administrator, don't purge it.
+ if (us.axlevel == 6) purge = 0;
- /* If the access level is 0, the record should already have been
- * deleted, but maybe the user was logged in at the time or something.
- * Delete the record now.
- */
- if (us->axlevel == 0) purge = 1;
+ // If the access level is 0, the record should already have been
+ // deleted, but maybe the user was logged in at the time or something.
+ // Delete the record now.
+ if (us.axlevel == 0) purge = 1;
- /* If the user set his/her password to 'deleteme', he/she
- * wishes to be deleted, so purge the record.
- * Moved this lower down so that aides and permanent users get purged if they ask to be.
- */
- if (!strcasecmp(us->password, "deleteme")) purge = 1;
+ // If the user set his/her password to 'deleteme', he/she
+ // wishes to be deleted, so purge the record.
+ // Moved this lower down so that aides and permanent users get purged if they ask to be.
+ if (!strcasecmp(us.password, "deleteme")) purge = 1;
- /* 0 calls is impossible. If there are 0 calls, it must
- * be a corrupted record, so purge it.
- * Actually it is possible if an Aide created the user so now we check for less than 0 (DRW)
- */
- if (us->timescalled < 0) purge = 1;
-
- /* any negative user number, is
- * also impossible.
- */
- if (us->usernum < 0L) purge = 1;
+ // Fewer than zero calls is impossible, indicating a corrupted record.
+ if (us.timescalled < 0) purge = 1;
+
+ // any negative user number, is also impossible.
+ if (us.usernum < 0L) purge = 1;
- /* Don't purge user 0. That user is there for the system */
- if (us->usernum == 0L)
- {
- /* FIXME: Temporary log message. Until we do unauth access with user 0 we should
- * try to get rid of all user 0 occurences. Many will be remnants from old code so
- * we will need to try and purge them from users data bases.Some will not have names but
- * those with names should be purged.
- */
- syslog(LOG_DEBUG, "Auto purger found a user 0 with name <%s>", us->fullname);
+ // Don't purge user 0. That user is there for the system
+ if (us.usernum == 0L) {
+ // FIXME: Temporary log message. Until we do unauth access with user 0 we should
+ // try to get rid of all user 0 occurences. Many will be remnants from old code so
+ // we will need to try and purge them from users data bases.Some will not have names but
+ // those with names should be purged.
+ syslog(LOG_DEBUG, "Auto purger found a user 0 with name <%s>", us.fullname);
// purge = 0;
}
- /* If the user has no full name entry then we can't purge them
- * since the actual purge can't find them.
- * This shouldn't happen but does somehow.
- */
- if (IsEmptyStr(us->fullname))
- {
+ // If the user has no full name entry then we can't purge them since the actual purge can't find them.
+ // This shouldn't happen but does somehow.
+ if (IsEmptyStr(us.fullname)) {
purge = 0;
- if (us->usernum > 0L)
- {
+ if (us.usernum > 0L) {
purge=0;
- if (users_corrupt_msg == NULL)
- {
+ if (users_corrupt_msg == NULL) {
users_corrupt_msg = malloc(SIZ);
strcpy(users_corrupt_msg,
"The auto-purger found the following user numbers with no name.\n"
}
users_corrupt_msg=realloc(users_corrupt_msg, strlen(users_corrupt_msg)+30);
- snprintf(&users_corrupt_msg[strlen(users_corrupt_msg)], 29, " %ld\n", us->usernum);
+ snprintf(&users_corrupt_msg[strlen(users_corrupt_msg)], 29, " %ld\n", us.usernum);
}
}
if (purge == 1) {
pptr = (struct PurgeList *) malloc(sizeof(struct PurgeList));
pptr->next = UserPurgeList;
- strcpy(pptr->name, us->fullname);
+ strcpy(pptr->name, us.fullname);
UserPurgeList = pptr;
}
else {
case AUTHMODE_NATIVE:
ForEachUser(do_user_purge, NULL);
break;
- case AUTHMODE_HOST:
- ForEachUser(do_uid_user_purge, NULL);
- break;
default:
syslog(LOG_DEBUG, "User purge for auth mode %d is not implemented.", CtdlGetConfigInt("c_auth_mode"));
break;
if (num_users_purged > 0) CtdlAideMessage(transcript, "User Purge Message");
free(transcript);
- if(users_corrupt_msg)
- {
+ if (users_corrupt_msg) {
CtdlAideMessage(users_corrupt_msg, "User Corruption Message");
free (users_corrupt_msg);
users_corrupt_msg = NULL;
}
- if(users_zero_msg)
- {
+ if(users_zero_msg) {
CtdlAideMessage(users_zero_msg, "User Zero Message");
free (users_zero_msg);
users_zero_msg = NULL;
}
-/*
- * Purge visits
- *
- * This is a really cumbersome "garbage collection" function. We have to
- * delete visits which refer to rooms and/or users which no longer exist. In
- * order to prevent endless traversals of the room and user files, we first
- * build linked lists of rooms and users which _do_ exist on the system, then
- * traverse the visit file, checking each record against those two lists and
- * purging the ones that do not have a match on _both_ lists. (Remember, if
- * either the room or user being referred to is no longer on the system, the
- * record is completely useless.)
- */
+// Purge visits
+//
+// This is a really cumbersome "garbage collection" function. We have to
+// delete visits which refer to rooms and/or users which no longer exist. In
+// order to prevent endless traversals of the room and user files, we first
+// build linked lists of rooms and users which _do_ exist on the system, then
+// traverse the visit file, checking each record against those two lists and
+// purging the ones that do not have a match on _both_ lists. (Remember, if
+// either the room or user being referred to is no longer on the system, the
+// record is completely useless.)
+//
int PurgeVisits(void) {
struct cdbdata *cdbvisit;
visit vbuf;
struct ValidUser *vuptr;
int RoomIsValid, UserIsValid;
- /* First, load up a table full of valid room/gen combinations */
+ // First, load up a table full of valid room/gen combinations
CtdlForEachRoom(AddValidRoom, NULL);
- /* Then load up a table full of valid user numbers */
+ // Then load up a table full of valid user numbers
ForEachUser(AddValidUser, NULL);
- /* Now traverse through the visits, purging irrelevant records... */
+ // Now traverse through the visits, purging irrelevant records...
cdb_rewind(CDB_VISIT);
while(cdbvisit = cdb_next_item(CDB_VISIT), cdbvisit != NULL) {
memset(&vbuf, 0, sizeof(visit));
RoomIsValid = 0;
UserIsValid = 0;
- /* Check to see if the room exists */
+ // Check to see if the room exists
for (vrptr=ValidRoomList; vrptr!=NULL; vrptr=vrptr->next) {
if ( (vrptr->vr_roomnum==vbuf.v_roomnum)
&& (vrptr->vr_roomgen==vbuf.v_roomgen))
RoomIsValid = 1;
}
- /* Check to see if the user exists */
+ // Check to see if the user exists
for (vuptr=ValidUserList; vuptr!=NULL; vuptr=vuptr->next) {
if (vuptr->vu_usernum == vbuf.v_usernum)
UserIsValid = 1;
}
- /* Put the record on the purge list if it's dead */
+ // Put the record on the purge list if it's dead
if ((RoomIsValid==0) || (UserIsValid==0)) {
vptr = (struct VPurgeList *)
malloc(sizeof(struct VPurgeList));
}
- /* Free the valid room/gen combination list */
+ // Free the valid room/gen combination list
while (ValidRoomList != NULL) {
vrptr = ValidRoomList->next;
free(ValidRoomList);
ValidRoomList = vrptr;
}
- /* Free the valid user list */
+ // Free the valid user list
while (ValidUserList != NULL) {
vuptr = ValidUserList->next;
free(ValidUserList);
ValidUserList = vuptr;
}
- /* Now delete every visit on the purged list */
+ // Now delete every visit on the purged list
while (VisitPurgeList != NULL) {
IndexLen = GenerateRelationshipIndex(IndexBuf,
VisitPurgeList->vp_roomnum,
}
-/*
- * Purge the use table of old entries.
- *
- */
+// Purge the use table of old entries.
int PurgeUseTable(StrBuf *ErrMsg) {
int purged = 0;
struct cdbdata *cdbut;
struct UPurgeList *ul = NULL;
struct UPurgeList *uptr;
- /* Phase 1: traverse through the table, discovering old records... */
- if (CheckTDAPVeto(CDB_USETABLE, ErrMsg))
- {
- syslog(LOG_DEBUG, "Purge use table: VETO!");
- return 0;
- }
+ // Phase 1: traverse through the table, discovering old records...
syslog(LOG_DEBUG, "Purge use table: phase 1");
cdb_rewind(CDB_USETABLE);
- while(cdbut = cdb_next_item(CDB_USETABLE), cdbut != NULL)
- {
+ while(cdbut = cdb_next_item(CDB_USETABLE), cdbut != NULL) {
if (cdbut->len > sizeof(struct UseTable))
memcpy(&ut, cdbut->ptr, sizeof(struct UseTable));
- else
- {
+ else {
memset(&ut, 0, sizeof(struct UseTable));
memcpy(&ut, cdbut->ptr, cdbut->len);
}
cdb_free(cdbut);
- if ( (time(NULL) - ut.ut_timestamp) > USETABLE_RETAIN )
- {
+ if ( (time(NULL) - ut.ut_timestamp) > USETABLE_RETAIN ) {
uptr = (struct UPurgeList *) malloc(sizeof(struct UPurgeList));
- if (uptr != NULL)
- {
+ if (uptr != NULL) {
uptr->next = ul;
safestrncpy(uptr->up_key, ut.ut_msgid, sizeof uptr->up_key);
ul = uptr;
}
- /* Phase 2: delete the records */
+ // Phase 2: delete the records
syslog(LOG_DEBUG, "Purge use table: phase 2");
while (ul != NULL) {
cdb_delete(CDB_USETABLE, ul->up_key, strlen(ul->up_key));
}
-/*
- * Purge the EUID Index of old records.
- *
- */
+// Purge the EUID Index of old records.
int PurgeEuidIndexTable(void) {
int purged = 0;
struct cdbdata *cdbei;
long msgnum;
struct CtdlMessage *msg = NULL;
- /* Phase 1: traverse through the table, discovering old records... */
+ // Phase 1: traverse through the table, discovering old records...
syslog(LOG_DEBUG, "Purge EUID index: phase 1");
cdb_rewind(CDB_EUIDINDEX);
while(cdbei = cdb_next_item(CDB_EUIDINDEX), cdbei != NULL) {
memcpy(&msgnum, cdbei->ptr, sizeof(long));
- msg = CtdlFetchMessage(msgnum, 0, 1);
+ msg = CtdlFetchMessage(msgnum, 0);
if (msg != NULL) {
- CM_Free(msg); /* it still exists, so do nothing */
+ CM_Free(msg); // it still exists, so do nothing
}
else {
eptr = (struct EPurgeList *) malloc(sizeof(struct EPurgeList));
}
- /* Phase 2: delete the records */
+ // Phase 2: delete the records
syslog(LOG_DEBUG, "Purge euid index: phase 2");
while (el != NULL) {
cdb_delete(CDB_EUIDINDEX, el->ep_key, el->ep_keylen);
}
-/*
- * Purge OpenID assocations for missing users (theoretically this will never delete anything)
- */
-int PurgeStaleOpenIDassociations(void) {
+// Purge external auth assocations for missing users (theoretically this will never delete anything)
+int PurgeStaleExtAuthAssociations(void) {
struct cdbdata *cdboi;
struct ctdluser usbuf;
HashList *keys = NULL;
keys = NewHash(1, NULL);
if (!keys) return(0);
-
- cdb_rewind(CDB_OPENID);
- while (cdboi = cdb_next_item(CDB_OPENID), cdboi != NULL) {
+ cdb_rewind(CDB_EXTAUTH);
+ while (cdboi = cdb_next_item(CDB_EXTAUTH), cdboi != NULL) {
if (cdboi->len > sizeof(long)) {
memcpy(&usernum, cdboi->ptr, sizeof(long));
if (CtdlGetUserByNumber(&usbuf, usernum) != 0) {
cdb_free(cdboi);
}
- /* Go through the hash list, deleting keys we stored in it */
+ // Go through the hash list, deleting keys we stored in it
HashPos = GetNewHashPos(keys, 0);
- while (GetNextHashPos(keys, HashPos, &len, &Key, &Value)!=0)
- {
- syslog(LOG_DEBUG, "Deleting associated OpenID <%s>", (char*)Value);
- cdb_delete(CDB_OPENID, Value, strlen(Value));
- /* note: don't free(Value) -- deleting the hash list will handle this for us */
+ while (GetNextHashPos(keys, HashPos, &len, &Key, &Value)!=0) {
+ syslog(LOG_DEBUG, "Deleting associated external authenticator <%s>", (char*)Value);
+ cdb_delete(CDB_EXTAUTH, Value, strlen(Value));
+ // note: don't free(Value) -- deleting the hash list will handle this for us
++num_deleted;
}
DeleteHashPos(&HashPos);
}
-void purge_databases(void)
-{
+void purge_databases(void) {
int retval;
static time_t last_purge = 0;
time_t now;
struct tm tm;
- /* Do the auto-purge if the current hour equals the purge hour,
- * but not if the operation has already been performed in the
- * last twelve hours. This is usually enough granularity.
- */
+ // Do the auto-purge if the current hour equals the purge hour,
+ // but not if the operation has already been performed in the
+ // last twelve hours. This is usually enough granularity.
now = time(NULL);
localtime_r(&now, &tm);
- if (((tm.tm_hour != CtdlGetConfigInt("c_purge_hour")) || ((now - last_purge) < 43200)) && (force_purge_now == 0))
- {
- return;
+ if (((tm.tm_hour != CtdlGetConfigInt("c_purge_hour")) || ((now - last_purge) < 43200)) && (force_purge_now == 0)) {
+ return;
}
syslog(LOG_INFO, "Auto-purger: starting.");
- if (!server_shutting_down)
- {
+ if (!server_shutting_down) {
retval = PurgeUsers();
syslog(LOG_NOTICE, "Purged %d users.", retval);
}
- if (!server_shutting_down)
- {
+ if (!server_shutting_down) {
PurgeMessages();
syslog(LOG_NOTICE, "Expired %d messages.", messages_purged);
}
- if (!server_shutting_down)
- {
+ if (!server_shutting_down) {
retval = PurgeRooms();
syslog(LOG_NOTICE, "Expired %d rooms.", retval);
}
- if (!server_shutting_down)
- {
+ if (!server_shutting_down) {
retval = PurgeVisits();
syslog(LOG_NOTICE, "Purged %d visits.", retval);
}
- if (!server_shutting_down)
- {
+ if (!server_shutting_down) {
StrBuf *ErrMsg;
-
- ErrMsg = NewStrBuf ();
+ ErrMsg = NewStrBuf();
retval = PurgeUseTable(ErrMsg);
syslog(LOG_NOTICE, "Purged %d entries from the use table.", retval);
-////TODO: fix errmsg
FreeStrBuf(&ErrMsg);
}
- if (!server_shutting_down)
- {
- retval = PurgeEuidIndexTable();
- syslog(LOG_NOTICE, "Purged %d entries from the EUID index.", retval);
+ if (!server_shutting_down) {
+ retval = PurgeEuidIndexTable();
+ syslog(LOG_NOTICE, "Purged %d entries from the EUID index.", retval);
}
- if (!server_shutting_down)
- {
- retval = PurgeStaleOpenIDassociations();
- syslog(LOG_NOTICE, "Purged %d stale OpenID associations.", retval);
+ if (!server_shutting_down) {
+ retval = PurgeStaleExtAuthAssociations();
+ syslog(LOG_NOTICE, "Purged %d stale external auth associations.", retval);
}
- if (!server_shutting_down)
- {
- retval = TDAP_ProcessAdjRefCountQueue();
- syslog(LOG_NOTICE, "Processed %d message reference count adjustments.", retval);
+ //if (!server_shutting_down) {
+ // FIXME this is where we could do a non-interactive delete of zero-refcount messages
+ //}
+
+ if ( (!server_shutting_down) && (CtdlGetConfigInt("c_shrink_db_files") != 0) ) {
+ cdb_compact(); // Shrink the DB files on disk
}
- if (!server_shutting_down)
- {
+ if (!server_shutting_down) {
syslog(LOG_INFO, "Auto-purger: finished.");
- last_purge = now; /* So we don't do it again soon */
+ last_purge = now; // So we don't do it again soon
force_purge_now = 0;
}
else {
}
-/*
- * Manually initiate a run of The Dreaded Auto-Purger (tm)
- */
+// Manually initiate a run of The Dreaded Auto-Purger (tm)
void cmd_tdap(char *argbuf) {
if (CtdlAccessCheck(ac_aide)) return;
force_purge_now = 1;
CtdlRegisterSessionHook(purge_databases, EVT_TIMER, PRIO_CLEANUP + 20);
}
- /* return our module name for the log */
+ // return our module name for the log
return "expire";
}