/* $OpenLDAP: pkg/ldap/servers/slapd/overlays/syncprov.c,v 1.56.2.42 2007/02/07 01:51:36 hyc Exp $ */ /* syncprov.c - syncrepl provider */ /* This work is part of OpenLDAP Software . * * Copyright 2004-2007 The OpenLDAP Foundation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in the file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ /* ACKNOWLEDGEMENTS: * This work was initially developed by Howard Chu for inclusion in * OpenLDAP Software. */ #include "portable.h" #ifdef SLAPD_OVER_SYNCPROV #include #include "lutil.h" #include "slap.h" #include "config.h" #include "ldap_rq.h" /* A modify request on a particular entry */ typedef struct modinst { struct modinst *mi_next; Operation *mi_op; } modinst; typedef struct modtarget { struct modinst *mt_mods; struct modinst *mt_tail; Operation *mt_op; ldap_pvt_thread_mutex_t mt_mutex; } modtarget; /* A queued result of a persistent search */ typedef struct syncres { struct syncres *s_next; struct berval s_dn; struct berval s_ndn; struct berval s_uuid; struct berval s_csn; char s_mode; char s_isreference; } syncres; /* Record of a persistent search */ typedef struct syncops { struct syncops *s_next; struct berval s_base; /* ndn of search base */ ID s_eid; /* entryID of search base */ Operation *s_op; /* search op */ int s_rid; struct berval s_filterstr; int s_flags; /* search status */ #define PS_IS_REFRESHING 0x01 #define PS_IS_DETACHED 0x02 #define PS_WROTE_BASE 0x04 #define PS_FIND_BASE 0x08 #define PS_FIX_FILTER 0x10 int s_inuse; /* reference count */ struct syncres *s_res; struct syncres *s_restail; struct re_s *s_qtask; /* task for playing psearch responses */ #define RUNQ_INTERVAL 36000 /* a long time */ ldap_pvt_thread_mutex_t s_mutex; } syncops; /* A received sync control */ typedef struct sync_control { struct sync_cookie sr_state; int sr_rhint; } sync_control; #if 0 /* moved back to slap.h */ #define o_sync o_ctrlflag[slap_cids.sc_LDAPsync] #endif /* o_sync_mode uses data bits of o_sync */ #define o_sync_mode o_ctrlflag[slap_cids.sc_LDAPsync] #define SLAP_SYNC_NONE (LDAP_SYNC_NONE<o_tmpmemctx ); ctrls[num_ctrls] = op->o_tmpalloc( sizeof ( LDAPControl ), op->o_tmpmemctx ); for ( a = e->e_attrs; a != NULL; a = a->a_next ) { AttributeDescription *desc = a->a_desc; if ( desc == slap_schema.si_ad_entryUUID ) { entryuuid_bv = a->a_nvals[0]; break; } } /* FIXME: what if entryuuid is NULL or empty ? */ if ( send_cookie && cookie ) { ber_printf( ber, "{eOON}", entry_sync_state, &entryuuid_bv, cookie ); } else { ber_printf( ber, "{eON}", entry_sync_state, &entryuuid_bv ); } ctrls[num_ctrls]->ldctl_oid = LDAP_CONTROL_SYNC_STATE; ctrls[num_ctrls]->ldctl_iscritical = (op->o_sync == SLAP_CONTROL_CRITICAL); ret = ber_flatten2( ber, &ctrls[num_ctrls]->ldctl_value, 1 ); ber_free_buf( ber ); if ( ret < 0 ) { Debug( LDAP_DEBUG_TRACE, "slap_build_sync_ctrl: ber_flatten2 failed\n", 0, 0, 0 ); send_ldap_error( op, rs, LDAP_OTHER, "internal error" ); return ret; } return LDAP_SUCCESS; } /* Build a LDAPsync final state control */ static int syncprov_done_ctrl( Operation *op, SlapReply *rs, LDAPControl **ctrls, int num_ctrls, int send_cookie, struct berval *cookie, int refreshDeletes ) { int ret; BerElementBuffer berbuf; BerElement *ber = (BerElement *)&berbuf; ber_init2( ber, NULL, LBER_USE_DER ); ber_set_option( ber, LBER_OPT_BER_MEMCTX, &op->o_tmpmemctx ); ctrls[num_ctrls] = op->o_tmpalloc( sizeof ( LDAPControl ), op->o_tmpmemctx ); ber_printf( ber, "{" ); if ( send_cookie && cookie ) { ber_printf( ber, "O", cookie ); } if ( refreshDeletes == LDAP_SYNC_REFRESH_DELETES ) { ber_printf( ber, "b", refreshDeletes ); } ber_printf( ber, "N}" ); ctrls[num_ctrls]->ldctl_oid = LDAP_CONTROL_SYNC_DONE; ctrls[num_ctrls]->ldctl_iscritical = (op->o_sync == SLAP_CONTROL_CRITICAL); ret = ber_flatten2( ber, &ctrls[num_ctrls]->ldctl_value, 1 ); ber_free_buf( ber ); if ( ret < 0 ) { Debug( LDAP_DEBUG_TRACE, "syncprov_done_ctrl: ber_flatten2 failed\n", 0, 0, 0 ); send_ldap_error( op, rs, LDAP_OTHER, "internal error" ); return ret; } return LDAP_SUCCESS; } static int syncprov_sendinfo( Operation *op, SlapReply *rs, int type, struct berval *cookie, int refreshDone, BerVarray syncUUIDs, int refreshDeletes ) { BerElementBuffer berbuf; BerElement *ber = (BerElement *)&berbuf; struct berval rspdata; int ret; ber_init2( ber, NULL, LBER_USE_DER ); ber_set_option( ber, LBER_OPT_BER_MEMCTX, &op->o_tmpmemctx ); if ( type ) { switch ( type ) { case LDAP_TAG_SYNC_NEW_COOKIE: ber_printf( ber, "tO", type, cookie ); break; case LDAP_TAG_SYNC_REFRESH_DELETE: case LDAP_TAG_SYNC_REFRESH_PRESENT: ber_printf( ber, "t{", type ); if ( cookie ) { ber_printf( ber, "O", cookie ); } if ( refreshDone == 0 ) { ber_printf( ber, "b", refreshDone ); } ber_printf( ber, "N}" ); break; case LDAP_TAG_SYNC_ID_SET: ber_printf( ber, "t{", type ); if ( cookie ) { ber_printf( ber, "O", cookie ); } if ( refreshDeletes == 1 ) { ber_printf( ber, "b", refreshDeletes ); } ber_printf( ber, "[W]", syncUUIDs ); ber_printf( ber, "N}" ); break; default: Debug( LDAP_DEBUG_TRACE, "syncprov_sendinfo: invalid syncinfo type (%d)\n", type, 0, 0 ); return LDAP_OTHER; } } ret = ber_flatten2( ber, &rspdata, 0 ); if ( ret < 0 ) { Debug( LDAP_DEBUG_TRACE, "syncprov_sendinfo: ber_flatten2 failed\n", 0, 0, 0 ); send_ldap_error( op, rs, LDAP_OTHER, "internal error" ); return ret; } rs->sr_rspoid = LDAP_SYNC_INFO; rs->sr_rspdata = &rspdata; send_ldap_intermediate( op, rs ); rs->sr_rspdata = NULL; ber_free_buf( ber ); return LDAP_SUCCESS; } /* Find a modtarget in an AVL tree */ static int sp_avl_cmp( const void *c1, const void *c2 ) { const modtarget *m1, *m2; int rc; m1 = c1; m2 = c2; rc = m1->mt_op->o_req_ndn.bv_len - m2->mt_op->o_req_ndn.bv_len; if ( rc ) return rc; return ber_bvcmp( &m1->mt_op->o_req_ndn, &m2->mt_op->o_req_ndn ); } /* syncprov_findbase: * finds the true DN of the base of a search (with alias dereferencing) and * checks to make sure the base entry doesn't get replaced with a different * entry (e.g., swapping trees via ModDN, or retargeting an alias). If a * change is detected, any persistent search on this base must be terminated / * reloaded. * On the first call, we just save the DN and entryID. On subsequent calls * we compare the DN and entryID with the saved values. */ static int findbase_cb( Operation *op, SlapReply *rs ) { slap_callback *sc = op->o_callback; if ( rs->sr_type == REP_SEARCH && rs->sr_err == LDAP_SUCCESS ) { fbase_cookie *fc = sc->sc_private; /* If no entryID, we're looking for the first time. * Just store whatever we got. */ if ( fc->fss->s_eid == NOID ) { fc->fbase = 2; fc->fss->s_eid = rs->sr_entry->e_id; ber_dupbv( &fc->fss->s_base, &rs->sr_entry->e_nname ); } else if ( rs->sr_entry->e_id == fc->fss->s_eid && dn_match( &rs->sr_entry->e_nname, &fc->fss->s_base )) { /* OK, the DN is the same and the entryID is the same. */ fc->fbase = 1; } } if ( rs->sr_err != LDAP_SUCCESS ) { Debug( LDAP_DEBUG_ANY, "findbase failed! %d\n", rs->sr_err,0,0 ); } return LDAP_SUCCESS; } static Filter generic_filter = { LDAP_FILTER_PRESENT, { 0 }, NULL }; static struct berval generic_filterstr = BER_BVC("(objectclass=*)"); static int syncprov_findbase( Operation *op, fbase_cookie *fc ) { opcookie *opc = op->o_callback->sc_private; slap_overinst *on = opc->son; /* Use basic parameters from syncrepl search, but use * current op's threadctx / tmpmemctx */ ldap_pvt_thread_mutex_lock( &fc->fss->s_mutex ); if ( fc->fss->s_flags & PS_FIND_BASE ) { slap_callback cb = {0}; Operation fop; SlapReply frs = { REP_RESULT }; int rc; fc->fss->s_flags ^= PS_FIND_BASE; ldap_pvt_thread_mutex_unlock( &fc->fss->s_mutex ); fop = *fc->fss->s_op; fop.o_hdr = op->o_hdr; fop.o_bd = op->o_bd; fop.o_time = op->o_time; fop.o_tincr = op->o_tincr; cb.sc_response = findbase_cb; cb.sc_private = fc; fop.o_sync_mode = 0; /* turn off sync mode */ fop.o_managedsait = SLAP_CONTROL_CRITICAL; fop.o_callback = &cb; fop.o_tag = LDAP_REQ_SEARCH; fop.ors_scope = LDAP_SCOPE_BASE; fop.ors_limit = NULL; fop.ors_slimit = 1; fop.ors_tlimit = SLAP_NO_LIMIT; fop.ors_attrs = slap_anlist_no_attrs; fop.ors_attrsonly = 1; fop.ors_filter = &generic_filter; fop.ors_filterstr = generic_filterstr; fop.o_bd->bd_info = on->on_info->oi_orig; rc = fop.o_bd->be_search( &fop, &frs ); fop.o_bd->bd_info = (BackendInfo *)on; } else { ldap_pvt_thread_mutex_unlock( &fc->fss->s_mutex ); fc->fbase = 1; } /* After the first call, see if the fdn resides in the scope */ if ( fc->fbase == 1 ) { switch ( fc->fss->s_op->ors_scope ) { case LDAP_SCOPE_BASE: fc->fscope = dn_match( fc->fdn, &fc->fss->s_base ); break; case LDAP_SCOPE_ONELEVEL: { struct berval pdn; dnParent( fc->fdn, &pdn ); fc->fscope = dn_match( &pdn, &fc->fss->s_base ); break; } case LDAP_SCOPE_SUBTREE: fc->fscope = dnIsSuffix( fc->fdn, &fc->fss->s_base ); break; case LDAP_SCOPE_SUBORDINATE: fc->fscope = dnIsSuffix( fc->fdn, &fc->fss->s_base ) && !dn_match( fc->fdn, &fc->fss->s_base ); break; } } if ( fc->fbase ) return LDAP_SUCCESS; /* If entryID has changed, then the base of this search has * changed. Invalidate the psearch. */ return LDAP_NO_SUCH_OBJECT; } /* syncprov_findcsn: * This function has three different purposes, but they all use a search * that filters on entryCSN so they're combined here. * 1: at startup time, after a contextCSN has been read from the database, * we search for all entries with CSN >= contextCSN in case the contextCSN * was not checkpointed at the previous shutdown. * * 2: when the current contextCSN is known and we have a sync cookie, we search * for one entry with CSN = the cookie CSN. If not found, try <= cookie CSN. * If an entry is found, the cookie CSN is valid, otherwise it is stale. * * 3: during a refresh phase, we search for all entries with CSN <= the cookie * CSN, and generate Present records for them. We always collect this result * in SyncID sets, even if there's only one match. */ typedef enum find_csn_t { FIND_MAXCSN = 1, FIND_CSN = 2, FIND_PRESENT = 3 } find_csn_t; static int findmax_cb( Operation *op, SlapReply *rs ) { if ( rs->sr_type == REP_SEARCH && rs->sr_err == LDAP_SUCCESS ) { struct berval *maxcsn = op->o_callback->sc_private; Attribute *a = attr_find( rs->sr_entry->e_attrs, slap_schema.si_ad_entryCSN ); if ( a && ber_bvcmp( &a->a_vals[0], maxcsn ) > 0 ) { maxcsn->bv_len = a->a_vals[0].bv_len; strcpy( maxcsn->bv_val, a->a_vals[0].bv_val ); } } return LDAP_SUCCESS; } static int findcsn_cb( Operation *op, SlapReply *rs ) { slap_callback *sc = op->o_callback; /* We just want to know that at least one exists, so it's OK if * we exceed the unchecked limit. */ if ( rs->sr_err == LDAP_ADMINLIMIT_EXCEEDED || (rs->sr_type == REP_SEARCH && rs->sr_err == LDAP_SUCCESS )) { sc->sc_private = (void *)1; } return LDAP_SUCCESS; } /* Build a list of entryUUIDs for sending in a SyncID set */ #define UUID_LEN 16 typedef struct fpres_cookie { int num; BerVarray uuids; char *last; } fpres_cookie; static int findpres_cb( Operation *op, SlapReply *rs ) { slap_callback *sc = op->o_callback; fpres_cookie *pc = sc->sc_private; Attribute *a; int ret = SLAP_CB_CONTINUE; switch ( rs->sr_type ) { case REP_SEARCH: a = attr_find( rs->sr_entry->e_attrs, slap_schema.si_ad_entryUUID ); if ( a ) { pc->uuids[pc->num].bv_val = pc->last; AC_MEMCPY( pc->uuids[pc->num].bv_val, a->a_nvals[0].bv_val, pc->uuids[pc->num].bv_len ); pc->num++; pc->last = pc->uuids[pc->num].bv_val; pc->uuids[pc->num].bv_val = NULL; } ret = LDAP_SUCCESS; if ( pc->num != SLAP_SYNCUUID_SET_SIZE ) break; /* FALLTHRU */ case REP_RESULT: ret = rs->sr_err; if ( pc->num ) { ret = syncprov_sendinfo( op, rs, LDAP_TAG_SYNC_ID_SET, NULL, 0, pc->uuids, 0 ); pc->uuids[pc->num].bv_val = pc->last; pc->num = 0; pc->last = pc->uuids[0].bv_val; } break; default: break; } return ret; } static int syncprov_findcsn( Operation *op, find_csn_t mode ) { slap_overinst *on = (slap_overinst *)op->o_bd->bd_info; syncprov_info_t *si = on->on_bi.bi_private; slap_callback cb = {0}; Operation fop; SlapReply frs = { REP_RESULT }; char buf[LDAP_LUTIL_CSNSTR_BUFSIZE + STRLENOF("(entryCSN<=)")]; char cbuf[LDAP_LUTIL_CSNSTR_BUFSIZE]; struct berval maxcsn; Filter cf; #ifdef LDAP_COMP_MATCH AttributeAssertion eq = { NULL, BER_BVNULL, NULL }; #else AttributeAssertion eq = { NULL, BER_BVNULL }; #endif fpres_cookie pcookie; sync_control *srs = NULL; struct slap_limits_set fc_limits; int i, rc = LDAP_SUCCESS, findcsn_retry = 1; if ( mode != FIND_MAXCSN ) { srs = op->o_controls[slap_cids.sc_LDAPsync]; if ( srs->sr_state.ctxcsn.bv_len >= LDAP_LUTIL_CSNSTR_BUFSIZE ) { return LDAP_OTHER; } } fop = *op; fop.o_sync_mode &= SLAP_CONTROL_MASK; /* turn off sync_mode */ /* We want pure entries, not referrals */ fop.o_managedsait = SLAP_CONTROL_CRITICAL; cf.f_ava = &eq; cf.f_av_desc = slap_schema.si_ad_entryCSN; cf.f_next = NULL; fop.o_callback = &cb; fop.ors_limit = NULL; fop.ors_tlimit = SLAP_NO_LIMIT; fop.ors_filter = &cf; fop.ors_filterstr.bv_val = buf; again: switch( mode ) { case FIND_MAXCSN: cf.f_choice = LDAP_FILTER_GE; cf.f_av_value = si->si_ctxcsn; fop.ors_filterstr.bv_len = sprintf( buf, "(entryCSN>=%s)", cf.f_av_value.bv_val ); fop.ors_attrsonly = 0; fop.ors_attrs = csn_anlist; fop.ors_slimit = SLAP_NO_LIMIT; cb.sc_private = &maxcsn; cb.sc_response = findmax_cb; strcpy( cbuf, si->si_ctxcsn.bv_val ); maxcsn.bv_val = cbuf; maxcsn.bv_len = si->si_ctxcsn.bv_len; break; case FIND_CSN: cf.f_av_value = srs->sr_state.ctxcsn; /* Look for exact match the first time */ if ( findcsn_retry ) { cf.f_choice = LDAP_FILTER_EQUALITY; fop.ors_filterstr.bv_len = sprintf( buf, "(entryCSN=%s)", cf.f_av_value.bv_val ); /* On retry, look for <= */ } else { cf.f_choice = LDAP_FILTER_LE; fop.ors_limit = &fc_limits; fc_limits.lms_s_unchecked = 1; fop.ors_filterstr.bv_len = sprintf( buf, "(entryCSN<=%s)", cf.f_av_value.bv_val ); } fop.ors_attrsonly = 1; fop.ors_attrs = slap_anlist_no_attrs; fop.ors_slimit = 1; cb.sc_private = NULL; cb.sc_response = findcsn_cb; break; case FIND_PRESENT: fop.ors_filter = op->ors_filter; fop.ors_filterstr = op->ors_filterstr; fop.ors_attrsonly = 0; fop.ors_attrs = uuid_anlist; fop.ors_slimit = SLAP_NO_LIMIT; cb.sc_private = &pcookie; cb.sc_response = findpres_cb; pcookie.num = 0; /* preallocate storage for a full set */ pcookie.uuids = op->o_tmpalloc( (SLAP_SYNCUUID_SET_SIZE+1) * sizeof(struct berval) + SLAP_SYNCUUID_SET_SIZE * UUID_LEN, op->o_tmpmemctx ); pcookie.last = (char *)(pcookie.uuids + SLAP_SYNCUUID_SET_SIZE+1); pcookie.uuids[0].bv_val = pcookie.last; pcookie.uuids[0].bv_len = UUID_LEN; for (i=1; ibd_info = on->on_info->oi_orig; fop.o_bd->be_search( &fop, &frs ); fop.o_bd->bd_info = (BackendInfo *)on; switch( mode ) { case FIND_MAXCSN: strcpy( si->si_ctxcsnbuf, maxcsn.bv_val ); si->si_ctxcsn.bv_len = maxcsn.bv_len; break; case FIND_CSN: /* If matching CSN was not found, invalidate the context. */ if ( !cb.sc_private ) { /* If we didn't find an exact match, then try for <= */ if ( findcsn_retry ) { findcsn_retry = 0; goto again; } rc = LDAP_NO_SUCH_OBJECT; } break; case FIND_PRESENT: op->o_tmpfree( pcookie.uuids, op->o_tmpmemctx ); break; } return rc; } static void syncprov_free_syncop( syncops *so ) { syncres *sr, *srnext; GroupAssertion *ga, *gnext; ldap_pvt_thread_mutex_lock( &so->s_mutex ); if ( --so->s_inuse > 0 ) { ldap_pvt_thread_mutex_unlock( &so->s_mutex ); return; } ldap_pvt_thread_mutex_unlock( &so->s_mutex ); if ( so->s_flags & PS_IS_DETACHED ) { filter_free( so->s_op->ors_filter ); for ( ga = so->s_op->o_groups; ga; ga=gnext ) { gnext = ga->ga_next; ch_free( ga ); } ch_free( so->s_op ); } ch_free( so->s_base.bv_val ); for ( sr=so->s_res; sr; sr=srnext ) { srnext = sr->s_next; ch_free( sr ); } ldap_pvt_thread_mutex_destroy( &so->s_mutex ); ch_free( so ); } /* Send a persistent search response */ static int syncprov_sendresp( Operation *op, opcookie *opc, syncops *so, Entry **e, int mode ) { slap_overinst *on = opc->son; SlapReply rs = { REP_SEARCH }; LDAPControl *ctrls[2]; struct berval cookie; Entry e_uuid = {0}; Attribute a_uuid = {0}; if ( so->s_op->o_abandon ) return SLAPD_ABANDON; ctrls[1] = NULL; slap_compose_sync_cookie( op, &cookie, &opc->sctxcsn, so->s_rid ); e_uuid.e_attrs = &a_uuid; a_uuid.a_desc = slap_schema.si_ad_entryUUID; a_uuid.a_nvals = &opc->suuid; rs.sr_err = syncprov_state_ctrl( op, &rs, &e_uuid, mode, ctrls, 0, 1, &cookie ); op->o_tmpfree( cookie.bv_val, op->o_tmpmemctx ); rs.sr_ctrls = ctrls; op->o_bd->bd_info = (BackendInfo *)on->on_info; switch( mode ) { case LDAP_SYNC_ADD: rs.sr_entry = *e; if ( rs.sr_entry->e_private ) rs.sr_flags = REP_ENTRY_MUSTRELEASE; if ( opc->sreference ) { rs.sr_ref = get_entry_referrals( op, rs.sr_entry ); rs.sr_err = send_search_reference( op, &rs ); ber_bvarray_free( rs.sr_ref ); if ( !rs.sr_entry ) *e = NULL; break; } /* fallthru */ case LDAP_SYNC_MODIFY: rs.sr_entry = *e; if ( rs.sr_entry->e_private ) rs.sr_flags = REP_ENTRY_MUSTRELEASE; rs.sr_attrs = op->ors_attrs; rs.sr_err = send_search_entry( op, &rs ); if ( !rs.sr_entry ) *e = NULL; break; case LDAP_SYNC_DELETE: e_uuid.e_attrs = NULL; e_uuid.e_name = opc->sdn; e_uuid.e_nname = opc->sndn; rs.sr_entry = &e_uuid; if ( opc->sreference ) { struct berval bv = BER_BVNULL; rs.sr_ref = &bv; rs.sr_err = send_search_reference( op, &rs ); } else { rs.sr_err = send_search_entry( op, &rs ); } break; default: assert(0); } /* In case someone else freed it already? */ if ( rs.sr_ctrls ) { op->o_tmpfree( rs.sr_ctrls[0], op->o_tmpmemctx ); rs.sr_ctrls = NULL; } return rs.sr_err; } /* Play back queued responses */ static int syncprov_qplay( Operation *op, slap_overinst *on, syncops *so ) { syncres *sr; Entry *e; opcookie opc; int rc = 0; opc.son = on; op->o_bd->bd_info = (BackendInfo *)on->on_info; for (;;) { ldap_pvt_thread_mutex_lock( &so->s_mutex ); sr = so->s_res; if ( sr ) so->s_res = sr->s_next; if ( !so->s_res ) so->s_restail = NULL; ldap_pvt_thread_mutex_unlock( &so->s_mutex ); if ( !sr || so->s_op->o_abandon ) break; opc.sdn = sr->s_dn; opc.sndn = sr->s_ndn; opc.suuid = sr->s_uuid; opc.sctxcsn = sr->s_csn; opc.sreference = sr->s_isreference; e = NULL; if ( sr->s_mode != LDAP_SYNC_DELETE ) { rc = be_entry_get_rw( op, &opc.sndn, NULL, NULL, 0, &e ); if ( rc ) { Debug( LDAP_DEBUG_SYNC, "syncprov_qplay: failed to get %s, " "error (%d), ignoring...\n", opc.sndn.bv_val, rc, 0 ); ch_free( sr ); rc = 0; continue; } } rc = syncprov_sendresp( op, &opc, so, &e, sr->s_mode ); if ( e ) { be_entry_release_rw( op, e, 0 ); } ch_free( sr ); if ( rc ) break; } op->o_bd->bd_info = (BackendInfo *)on; return rc; } /* runqueue task for playing back queued responses */ static void * syncprov_qtask( void *ctx, void *arg ) { struct re_s *rtask = arg; syncops *so = rtask->arg; slap_overinst *on = so->s_op->o_private; OperationBuffer opbuf; Operation *op; BackendDB be; int rc; op = (Operation *) &opbuf; *op = *so->s_op; op->o_hdr = (Opheader *)(op+1); op->o_controls = (void **)(op->o_hdr+1); memset( op->o_controls, 0, SLAP_MAX_CIDS * sizeof(void *)); *op->o_hdr = *so->s_op->o_hdr; op->o_tmpmemctx = slap_sl_mem_create(SLAP_SLAB_SIZE, SLAP_SLAB_STACK, ctx); op->o_tmpmfuncs = &slap_sl_mfuncs; op->o_threadctx = ctx; /* syncprov_qplay expects a fake db */ be = *so->s_op->o_bd; be.be_flags |= SLAP_DBFLAG_OVERLAY; op->o_bd = &be; op->o_private = NULL; op->o_callback = NULL; rc = syncprov_qplay( op, on, so ); /* decrement use count... */ syncprov_free_syncop( so ); /* wait until we get explicitly scheduled again */ ldap_pvt_thread_mutex_lock( &slapd_rq.rq_mutex ); ldap_pvt_runqueue_stoptask( &slapd_rq, rtask ); if ( rc == 0 ) { ldap_pvt_runqueue_resched( &slapd_rq, rtask, 1 ); } else { /* bail out on any error */ ldap_pvt_runqueue_remove( &slapd_rq, rtask ); } ldap_pvt_thread_mutex_unlock( &slapd_rq.rq_mutex ); return NULL; } /* Start the task to play back queued psearch responses */ static void syncprov_qstart( syncops *so ) { int wake=0; ldap_pvt_thread_mutex_lock( &slapd_rq.rq_mutex ); if ( !so->s_qtask ) { so->s_qtask = ldap_pvt_runqueue_insert( &slapd_rq, RUNQ_INTERVAL, syncprov_qtask, so, "syncprov_qtask", so->s_op->o_conn->c_peer_name.bv_val ); ++so->s_inuse; wake = 1; } else { if (!ldap_pvt_runqueue_isrunning( &slapd_rq, so->s_qtask ) && !so->s_qtask->next_sched.tv_sec ) { so->s_qtask->interval.tv_sec = 0; ldap_pvt_runqueue_resched( &slapd_rq, so->s_qtask, 0 ); so->s_qtask->interval.tv_sec = RUNQ_INTERVAL; ++so->s_inuse; wake = 1; } } ldap_pvt_thread_mutex_unlock( &slapd_rq.rq_mutex ); if ( wake ) slap_wake_listener(); } /* Queue a persistent search response */ static int syncprov_qresp( opcookie *opc, syncops *so, int mode ) { syncres *sr; sr = ch_malloc(sizeof(syncres) + opc->suuid.bv_len + 1 + opc->sdn.bv_len + 1 + opc->sndn.bv_len + 1 + opc->sctxcsn.bv_len + 1 ); sr->s_next = NULL; sr->s_dn.bv_val = (char *)(sr + 1); sr->s_dn.bv_len = opc->sdn.bv_len; sr->s_mode = mode; sr->s_isreference = opc->sreference; sr->s_ndn.bv_val = lutil_strcopy( sr->s_dn.bv_val, opc->sdn.bv_val ) + 1; sr->s_ndn.bv_len = opc->sndn.bv_len; sr->s_uuid.bv_val = lutil_strcopy( sr->s_ndn.bv_val, opc->sndn.bv_val ) + 1; sr->s_uuid.bv_len = opc->suuid.bv_len; AC_MEMCPY( sr->s_uuid.bv_val, opc->suuid.bv_val, opc->suuid.bv_len ); sr->s_csn.bv_val = sr->s_uuid.bv_val + sr->s_uuid.bv_len + 1; sr->s_csn.bv_len = opc->sctxcsn.bv_len; strcpy( sr->s_csn.bv_val, opc->sctxcsn.bv_val ); ldap_pvt_thread_mutex_lock( &so->s_mutex ); if ( !so->s_res ) { so->s_res = sr; } else { so->s_restail->s_next = sr; } so->s_restail = sr; /* If the base of the psearch was modified, check it next time round */ if ( so->s_flags & PS_WROTE_BASE ) { so->s_flags ^= PS_WROTE_BASE; so->s_flags |= PS_FIND_BASE; } if ( so->s_flags & PS_IS_DETACHED ) { syncprov_qstart( so ); } ldap_pvt_thread_mutex_unlock( &so->s_mutex ); return LDAP_SUCCESS; } static int syncprov_drop_psearch( syncops *so, int lock ) { if ( so->s_flags & PS_IS_DETACHED ) { if ( lock ) ldap_pvt_thread_mutex_lock( &so->s_op->o_conn->c_mutex ); so->s_op->o_conn->c_n_ops_executing--; so->s_op->o_conn->c_n_ops_completed++; LDAP_STAILQ_REMOVE( &so->s_op->o_conn->c_ops, so->s_op, slap_op, o_next ); if ( lock ) ldap_pvt_thread_mutex_unlock( &so->s_op->o_conn->c_mutex ); } syncprov_free_syncop( so ); return 0; } static int syncprov_ab_cleanup( Operation *op, SlapReply *rs ) { slap_callback *sc = op->o_callback; op->o_callback = sc->sc_next; syncprov_drop_psearch( op->o_callback->sc_private, 0 ); op->o_tmpfree( sc, op->o_tmpmemctx ); return 0; } static int syncprov_op_abandon( Operation *op, SlapReply *rs ) { slap_overinst *on = (slap_overinst *)op->o_bd->bd_info; syncprov_info_t *si = on->on_bi.bi_private; syncops *so, *soprev; ldap_pvt_thread_mutex_lock( &si->si_ops_mutex ); for ( so=si->si_ops, soprev = (syncops *)&si->si_ops; so; soprev=so, so=so->s_next ) { if ( so->s_op->o_connid == op->o_connid && so->s_op->o_msgid == op->orn_msgid ) { so->s_op->o_abandon = 1; soprev->s_next = so->s_next; break; } } ldap_pvt_thread_mutex_unlock( &si->si_ops_mutex ); if ( so ) { /* Is this really a Cancel exop? */ if ( op->o_tag != LDAP_REQ_ABANDON ) { so->s_op->o_cancel = SLAP_CANCEL_ACK; rs->sr_err = LDAP_CANCELLED; send_ldap_result( so->s_op, rs ); if ( so->s_flags & PS_IS_DETACHED ) { slap_callback *cb; cb = op->o_tmpcalloc( 1, sizeof(slap_callback), op->o_tmpmemctx ); cb->sc_cleanup = syncprov_ab_cleanup; cb->sc_next = op->o_callback; cb->sc_private = so; return SLAP_CB_CONTINUE; } } syncprov_drop_psearch( so, 0 ); } return SLAP_CB_CONTINUE; } /* Find which persistent searches are affected by this operation */ static void syncprov_matchops( Operation *op, opcookie *opc, int saveit ) { slap_overinst *on = opc->son; syncprov_info_t *si = on->on_bi.bi_private; fbase_cookie fc; syncops *ss, *sprev, *snext; Entry *e; Attribute *a; int rc; struct berval newdn; int freefdn = 0; BackendDB *b0 = op->o_bd, db; fc.fdn = &op->o_req_ndn; /* compute new DN */ if ( op->o_tag == LDAP_REQ_MODRDN && !saveit ) { struct berval pdn; if ( op->orr_nnewSup ) pdn = *op->orr_nnewSup; else dnParent( fc.fdn, &pdn ); build_new_dn( &newdn, &pdn, &op->orr_nnewrdn, op->o_tmpmemctx ); fc.fdn = &newdn; freefdn = 1; } if ( op->o_tag != LDAP_REQ_ADD ) { if ( !SLAP_ISOVERLAY( op->o_bd )) { db = *op->o_bd; op->o_bd = &db; } op->o_bd->bd_info = (BackendInfo *)on->on_info; rc = be_entry_get_rw( op, fc.fdn, NULL, NULL, 0, &e ); /* If we're sending responses now, make a copy and unlock the DB */ if ( e && !saveit ) { Entry *e2 = entry_dup( e ); be_entry_release_rw( op, e, 0 ); e = e2; } op->o_bd->bd_info = (BackendInfo *)on; if ( rc ) { op->o_bd = b0; return; } } else { e = op->ora_e; } if ( saveit || op->o_tag == LDAP_REQ_ADD ) { ber_dupbv_x( &opc->sdn, &e->e_name, op->o_tmpmemctx ); ber_dupbv_x( &opc->sndn, &e->e_nname, op->o_tmpmemctx ); opc->sreference = is_entry_referral( e ); a = attr_find( e->e_attrs, slap_schema.si_ad_entryUUID ); if ( a ) ber_dupbv_x( &opc->suuid, &a->a_nvals[0], op->o_tmpmemctx ); } else if ( op->o_tag == LDAP_REQ_MODRDN && !saveit ) { op->o_tmpfree( opc->sndn.bv_val, op->o_tmpmemctx ); op->o_tmpfree( opc->sdn.bv_val, op->o_tmpmemctx ); ber_dupbv_x( &opc->sdn, &e->e_name, op->o_tmpmemctx ); ber_dupbv_x( &opc->sndn, &e->e_nname, op->o_tmpmemctx ); } ldap_pvt_thread_mutex_lock( &si->si_ops_mutex ); for (ss = si->si_ops, sprev = (syncops *)&si->si_ops; ss; sprev = ss, ss=snext) { syncmatches *sm; int found = 0; snext = ss->s_next; /* validate base */ fc.fss = ss; fc.fbase = 0; fc.fscope = 0; /* If the base of the search is missing, signal a refresh */ rc = syncprov_findbase( op, &fc ); if ( rc != LDAP_SUCCESS ) { SlapReply rs = {REP_RESULT}; send_ldap_error( ss->s_op, &rs, LDAP_SYNC_REFRESH_REQUIRED, "search base has changed" ); sprev->s_next = snext; syncprov_drop_psearch( ss, 1 ); ss = sprev; continue; } /* If we're sending results now, look for this op in old matches */ if ( !saveit ) { syncmatches *old; /* Did we modify the search base? */ if ( dn_match( &op->o_req_ndn, &ss->s_base )) { ldap_pvt_thread_mutex_lock( &ss->s_mutex ); ss->s_flags |= PS_WROTE_BASE; ldap_pvt_thread_mutex_unlock( &ss->s_mutex ); } for ( sm=opc->smatches, old=(syncmatches *)&opc->smatches; sm; old=sm, sm=sm->sm_next ) { if ( sm->sm_op == ss ) { found = 1; old->sm_next = sm->sm_next; op->o_tmpfree( sm, op->o_tmpmemctx ); break; } } } /* check if current o_req_dn is in scope and matches filter */ if ( fc.fscope && test_filter( op, e, ss->s_op->ors_filter ) == LDAP_COMPARE_TRUE ) { if ( saveit ) { sm = op->o_tmpalloc( sizeof(syncmatches), op->o_tmpmemctx ); sm->sm_next = opc->smatches; sm->sm_op = ss; ldap_pvt_thread_mutex_lock( &ss->s_mutex ); ++ss->s_inuse; ldap_pvt_thread_mutex_unlock( &ss->s_mutex ); opc->smatches = sm; } else { /* if found send UPDATE else send ADD */ syncprov_qresp( opc, ss, found ? LDAP_SYNC_MODIFY : LDAP_SYNC_ADD ); } } else if ( !saveit && found ) { /* send DELETE */ syncprov_qresp( opc, ss, LDAP_SYNC_DELETE ); } } ldap_pvt_thread_mutex_unlock( &si->si_ops_mutex ); if ( op->o_tag != LDAP_REQ_ADD && e ) { op->o_bd->bd_info = (BackendInfo *)on->on_info; be_entry_release_rw( op, e, 0 ); op->o_bd->bd_info = (BackendInfo *)on; } if ( freefdn ) { op->o_tmpfree( fc.fdn->bv_val, op->o_tmpmemctx ); } op->o_bd = b0; } static int syncprov_op_cleanup( Operation *op, SlapReply *rs ) { slap_callback *cb = op->o_callback; opcookie *opc = cb->sc_private; slap_overinst *on = opc->son; syncprov_info_t *si = on->on_bi.bi_private; syncmatches *sm, *snext; modtarget *mt, mtdummy; for (sm = opc->smatches; sm; sm=snext) { snext = sm->sm_next; syncprov_free_syncop( sm->sm_op ); op->o_tmpfree( sm, op->o_tmpmemctx ); } /* Remove op from lock table */ mtdummy.mt_op = op; ldap_pvt_thread_mutex_lock( &si->si_mods_mutex ); mt = avl_find( si->si_mods, &mtdummy, sp_avl_cmp ); if ( mt ) { modinst *mi = mt->mt_mods; /* If there are more, promote the next one */ ldap_pvt_thread_mutex_lock( &mt->mt_mutex ); if ( mi->mi_next ) { mt->mt_mods = mi->mi_next; mt->mt_op = mt->mt_mods->mi_op; ldap_pvt_thread_mutex_unlock( &mt->mt_mutex ); } else { avl_delete( &si->si_mods, mt, sp_avl_cmp ); ldap_pvt_thread_mutex_unlock( &mt->mt_mutex ); ldap_pvt_thread_mutex_destroy( &mt->mt_mutex ); ch_free( mt ); } } ldap_pvt_thread_mutex_unlock( &si->si_mods_mutex ); if ( !BER_BVISNULL( &opc->suuid )) op->o_tmpfree( opc->suuid.bv_val, op->o_tmpmemctx ); if ( !BER_BVISNULL( &opc->sndn )) op->o_tmpfree( opc->sndn.bv_val, op->o_tmpmemctx ); if ( !BER_BVISNULL( &opc->sdn )) op->o_tmpfree( opc->sdn.bv_val, op->o_tmpmemctx ); op->o_callback = cb->sc_next; op->o_tmpfree(cb, op->o_tmpmemctx); return 0; } static void syncprov_checkpoint( Operation *op, SlapReply *rs, slap_overinst *on ) { syncprov_info_t *si = on->on_bi.bi_private; Modifications mod; Operation opm; SlapReply rsm = { 0 }; struct berval bv[2]; slap_callback cb = {0}; /* If ctxcsn is empty, delete it */ if ( BER_BVISEMPTY( &si->si_ctxcsn )) { mod.sml_values = NULL; } else { mod.sml_values = bv; bv[1].bv_val = NULL; bv[0] = si->si_ctxcsn; } mod.sml_nvalues = NULL; mod.sml_desc = slap_schema.si_ad_contextCSN; mod.sml_op = LDAP_MOD_REPLACE; mod.sml_flags = 0; mod.sml_next = NULL; cb.sc_response = slap_null_cb; opm = *op; opm.o_tag = LDAP_REQ_MODIFY; opm.o_callback = &cb; opm.orm_modlist = &mod; opm.o_req_dn = op->o_bd->be_suffix[0]; opm.o_req_ndn = op->o_bd->be_nsuffix[0]; opm.o_bd->bd_info = on->on_info->oi_orig; opm.o_managedsait = SLAP_CONTROL_NONCRITICAL; SLAP_DBFLAGS( opm.o_bd ) |= SLAP_DBFLAG_NOLASTMOD; opm.o_bd->be_modify( &opm, &rsm ); SLAP_DBFLAGS( opm.o_bd ) ^= SLAP_DBFLAG_NOLASTMOD; if ( mod.sml_next != NULL ) { slap_mods_free( mod.sml_next, 1 ); } } static void syncprov_add_slog( Operation *op ) { opcookie *opc = op->o_callback->sc_private; slap_overinst *on = opc->son; syncprov_info_t *si = on->on_bi.bi_private; sessionlog *sl; slog_entry *se; sl = si->si_logs; { /* Allocate a record. UUIDs are not NUL-terminated. */ se = ch_malloc( sizeof( slog_entry ) + opc->suuid.bv_len + op->o_csn.bv_len + 1 ); se->se_next = NULL; se->se_tag = op->o_tag; se->se_uuid.bv_val = (char *)(&se[1]); AC_MEMCPY( se->se_uuid.bv_val, opc->suuid.bv_val, opc->suuid.bv_len ); se->se_uuid.bv_len = opc->suuid.bv_len; se->se_csn.bv_val = se->se_uuid.bv_val + opc->suuid.bv_len; AC_MEMCPY( se->se_csn.bv_val, op->o_csn.bv_val, op->o_csn.bv_len ); se->se_csn.bv_val[op->o_csn.bv_len] = '\0'; se->se_csn.bv_len = op->o_csn.bv_len; ldap_pvt_thread_mutex_lock( &sl->sl_mutex ); if ( sl->sl_head ) { sl->sl_tail->se_next = se; } else { sl->sl_head = se; } sl->sl_tail = se; sl->sl_num++; while ( sl->sl_num > sl->sl_size ) { se = sl->sl_head; sl->sl_head = se->se_next; strcpy( sl->sl_mincsn.bv_val, se->se_csn.bv_val ); sl->sl_mincsn.bv_len = se->se_csn.bv_len; ch_free( se ); sl->sl_num--; } ldap_pvt_thread_mutex_unlock( &sl->sl_mutex ); } } /* Just set a flag if we found the matching entry */ static int playlog_cb( Operation *op, SlapReply *rs ) { if ( rs->sr_type == REP_SEARCH ) { op->o_callback->sc_private = (void *)1; } return rs->sr_err; } /* enter with sl->sl_mutex locked, release before returning */ static void syncprov_playlog( Operation *op, SlapReply *rs, sessionlog *sl, sync_control *srs, struct berval *ctxcsn ) { slap_overinst *on = (slap_overinst *)op->o_bd->bd_info; slog_entry *se; int i, j, ndel, num, nmods, mmods; char cbuf[LDAP_LUTIL_CSNSTR_BUFSIZE]; BerVarray uuids; struct berval delcsn; if ( !sl->sl_num ) { ldap_pvt_thread_mutex_unlock( &sl->sl_mutex ); return; } num = sl->sl_num; i = 0; nmods = 0; uuids = op->o_tmpalloc( (num+1) * sizeof( struct berval ) + num * UUID_LEN, op->o_tmpmemctx ); uuids[0].bv_val = (char *)(uuids + num + 1); delcsn.bv_len = 0; delcsn.bv_val = cbuf; /* Make a copy of the relevant UUIDs. Put the Deletes up front * and everything else at the end. Do this first so we can * unlock the list mutex. */ Debug( LDAP_DEBUG_SYNC, "srs csn %s\n", srs->sr_state.ctxcsn.bv_val, 0, 0 ); for ( se=sl->sl_head; se; se=se->se_next ) { Debug( LDAP_DEBUG_SYNC, "log csn %s\n", se->se_csn.bv_val, 0, 0 ); ndel = ber_bvcmp( &se->se_csn, &srs->sr_state.ctxcsn ); if ( ndel <= 0 ) { Debug( LDAP_DEBUG_SYNC, "cmp %d, too old\n", ndel, 0, 0 ); continue; } ndel = ber_bvcmp( &se->se_csn, ctxcsn ); if ( ndel > 0 ) { Debug( LDAP_DEBUG_SYNC, "cmp %d, too new\n", ndel, 0, 0 ); break; } if ( se->se_tag == LDAP_REQ_DELETE ) { j = i; i++; AC_MEMCPY( cbuf, se->se_csn.bv_val, se->se_csn.bv_len ); delcsn.bv_len = se->se_csn.bv_len; delcsn.bv_val[delcsn.bv_len] = '\0'; } else { nmods++; j = num - nmods; } uuids[j].bv_val = uuids[0].bv_val + (j * UUID_LEN); AC_MEMCPY(uuids[j].bv_val, se->se_uuid.bv_val, UUID_LEN); uuids[j].bv_len = UUID_LEN; } ldap_pvt_thread_mutex_unlock( &sl->sl_mutex ); ndel = i; /* Zero out unused slots */ for ( i=ndel; i < num - nmods; i++ ) uuids[i].bv_len = 0; /* Mods must be validated to see if they belong in this delete set. */ mmods = nmods; /* Strip any duplicates */ for ( i=0; ibd_info = on->on_info->oi_orig; for ( i=ndel; ibe_search( &fop, &frs ); /* If entry was not found, add to delete list */ if ( !cb.sc_private ) { uuids[ndel++] = uuids[i]; } } fop.o_bd->bd_info = (BackendInfo *)on; } if ( ndel ) { struct berval cookie; slap_compose_sync_cookie( op, &cookie, &delcsn, srs->sr_state.rid ); uuids[ndel].bv_val = NULL; syncprov_sendinfo( op, rs, LDAP_TAG_SYNC_ID_SET, &cookie, 0, uuids, 1 ); op->o_tmpfree( cookie.bv_val, op->o_tmpmemctx ); } op->o_tmpfree( uuids, op->o_tmpmemctx ); } static int syncprov_op_response( Operation *op, SlapReply *rs ) { opcookie *opc = op->o_callback->sc_private; slap_overinst *on = opc->son; syncprov_info_t *si = on->on_bi.bi_private; syncmatches *sm; if ( rs->sr_err == LDAP_SUCCESS ) { struct berval maxcsn = BER_BVNULL; char cbuf[LDAP_LUTIL_CSNSTR_BUFSIZE]; int do_check=0; /* Update our context CSN */ cbuf[0] = '\0'; ldap_pvt_thread_rdwr_wlock( &si->si_csn_rwlock ); slap_get_commit_csn( op, &maxcsn ); if ( !BER_BVISNULL( &maxcsn ) ) { strcpy( cbuf, maxcsn.bv_val ); if ( ber_bvcmp( &maxcsn, &si->si_ctxcsn ) > 0 ) { strcpy( si->si_ctxcsnbuf, cbuf ); si->si_ctxcsn.bv_len = maxcsn.bv_len; } } /* Don't do any processing for consumer contextCSN updates */ if ( SLAP_SYNC_SHADOW( op->o_bd ) && op->o_msgid == SLAP_SYNC_UPDATE_MSGID ) { ldap_pvt_thread_rdwr_wunlock( &si->si_csn_rwlock ); return SLAP_CB_CONTINUE; } si->si_numops++; if ( si->si_chkops || si->si_chktime ) { if ( si->si_chkops && si->si_numops >= si->si_chkops ) { do_check = 1; si->si_numops = 0; } if ( si->si_chktime && (op->o_time - si->si_chklast >= si->si_chktime )) { do_check = 1; si->si_chklast = op->o_time; } } ldap_pvt_thread_rdwr_wunlock( &si->si_csn_rwlock ); if ( do_check ) { ldap_pvt_thread_rdwr_rlock( &si->si_csn_rwlock ); syncprov_checkpoint( op, rs, on ); ldap_pvt_thread_rdwr_runlock( &si->si_csn_rwlock ); } opc->sctxcsn.bv_len = maxcsn.bv_len; opc->sctxcsn.bv_val = cbuf; /* Handle any persistent searches */ if ( si->si_ops ) { switch(op->o_tag) { case LDAP_REQ_ADD: case LDAP_REQ_MODIFY: case LDAP_REQ_MODRDN: case LDAP_REQ_EXTENDED: syncprov_matchops( op, opc, 0 ); break; case LDAP_REQ_DELETE: /* for each match in opc->smatches: * send DELETE msg */ for ( sm = opc->smatches; sm; sm=sm->sm_next ) { if ( sm->sm_op->s_op->o_abandon ) continue; syncprov_qresp( opc, sm->sm_op, LDAP_SYNC_DELETE ); } break; } } /* Add any log records */ if ( si->si_logs && op->o_tag != LDAP_REQ_ADD ) { syncprov_add_slog( op ); } } return SLAP_CB_CONTINUE; } /* We don't use a subentry to store the context CSN any more. * We expose the current context CSN as an operational attribute * of the suffix entry. */ static int syncprov_op_compare( Operation *op, SlapReply *rs ) { slap_overinst *on = (slap_overinst *)op->o_bd->bd_info; syncprov_info_t *si = on->on_bi.bi_private; int rc = SLAP_CB_CONTINUE; if ( dn_match( &op->o_req_ndn, op->o_bd->be_nsuffix ) && op->oq_compare.rs_ava->aa_desc == slap_schema.si_ad_contextCSN ) { Entry e = {0}; Attribute a = {0}; struct berval bv[2]; e.e_name = op->o_bd->be_suffix[0]; e.e_nname = op->o_bd->be_nsuffix[0]; BER_BVZERO( &bv[1] ); bv[0] = si->si_ctxcsn; a.a_desc = slap_schema.si_ad_contextCSN; a.a_vals = bv; a.a_nvals = a.a_vals; ldap_pvt_thread_rdwr_rlock( &si->si_csn_rwlock ); rs->sr_err = access_allowed( op, &e, op->oq_compare.rs_ava->aa_desc, &op->oq_compare.rs_ava->aa_value, ACL_COMPARE, NULL ); if ( ! rs->sr_err ) { rs->sr_err = LDAP_INSUFFICIENT_ACCESS; goto return_results; } if ( get_assert( op ) && ( test_filter( op, &e, get_assertion( op ) ) != LDAP_COMPARE_TRUE ) ) { rs->sr_err = LDAP_ASSERTION_FAILED; goto return_results; } rs->sr_err = LDAP_COMPARE_FALSE; if ( value_find_ex( op->oq_compare.rs_ava->aa_desc, SLAP_MR_ATTRIBUTE_VALUE_NORMALIZED_MATCH | SLAP_MR_ASSERTED_VALUE_NORMALIZED_MATCH, a.a_nvals, &op->oq_compare.rs_ava->aa_value, op->o_tmpmemctx ) == 0 ) { rs->sr_err = LDAP_COMPARE_TRUE; } return_results:; ldap_pvt_thread_rdwr_runlock( &si->si_csn_rwlock ); send_ldap_result( op, rs ); if( rs->sr_err == LDAP_COMPARE_FALSE || rs->sr_err == LDAP_COMPARE_TRUE ) { rs->sr_err = LDAP_SUCCESS; } rc = rs->sr_err; } return rc; } static int syncprov_op_mod( Operation *op, SlapReply *rs ) { slap_overinst *on = (slap_overinst *)op->o_bd->bd_info; syncprov_info_t *si = on->on_bi.bi_private; slap_callback *cb = op->o_tmpcalloc(1, sizeof(slap_callback)+ sizeof(opcookie) + (si->si_ops ? sizeof(modinst) : 0 ), op->o_tmpmemctx); opcookie *opc = (opcookie *)(cb+1); opc->son = on; cb->sc_response = syncprov_op_response; cb->sc_cleanup = syncprov_op_cleanup; cb->sc_private = opc; cb->sc_next = op->o_callback; op->o_callback = cb; /* If there are active persistent searches, lock this operation. * See seqmod.c for the locking logic on its own. */ if ( si->si_ops ) { modtarget *mt, mtdummy; modinst *mi; mi = (modinst *)(opc+1); mi->mi_op = op; /* See if we're already modifying this entry... */ mtdummy.mt_op = op; ldap_pvt_thread_mutex_lock( &si->si_mods_mutex ); mt = avl_find( si->si_mods, &mtdummy, sp_avl_cmp ); if ( mt ) { ldap_pvt_thread_mutex_lock( &mt->mt_mutex ); ldap_pvt_thread_mutex_unlock( &si->si_mods_mutex ); mt->mt_tail->mi_next = mi; mt->mt_tail = mi; /* wait for this op to get to head of list */ while ( mt->mt_mods != mi ) { ldap_pvt_thread_mutex_unlock( &mt->mt_mutex ); ldap_pvt_thread_yield(); ldap_pvt_thread_mutex_lock( &mt->mt_mutex ); /* clean up if the caller is giving up */ if ( op->o_abandon ) { modinst *m2; for ( m2 = mt->mt_mods; m2->mi_next != mi; m2 = m2->mi_next ); m2->mi_next = mi->mi_next; if ( mt->mt_tail == mi ) mt->mt_tail = m2; op->o_tmpfree( cb, op->o_tmpmemctx ); ldap_pvt_thread_mutex_unlock( &mt->mt_mutex ); return SLAPD_ABANDON; } } ldap_pvt_thread_mutex_unlock( &mt->mt_mutex ); } else { /* Record that we're modifying this entry now */ mt = ch_malloc( sizeof(modtarget) ); mt->mt_mods = mi; mt->mt_tail = mi; mt->mt_op = mi->mi_op; ldap_pvt_thread_mutex_init( &mt->mt_mutex ); avl_insert( &si->si_mods, mt, sp_avl_cmp, avl_dup_error ); ldap_pvt_thread_mutex_unlock( &si->si_mods_mutex ); } } if (( si->si_ops || si->si_logs ) && op->o_tag != LDAP_REQ_ADD ) syncprov_matchops( op, opc, 1 ); return SLAP_CB_CONTINUE; } static int syncprov_op_extended( Operation *op, SlapReply *rs ) { if ( exop_is_write( op )) return syncprov_op_mod( op, rs ); return SLAP_CB_CONTINUE; } typedef struct searchstate { slap_overinst *ss_on; syncops *ss_so; int ss_present; struct berval ss_ctxcsn; char ss_csnbuf[LDAP_LUTIL_CSNSTR_BUFSIZE]; } searchstate; static int syncprov_search_cleanup( Operation *op, SlapReply *rs ) { if ( rs->sr_ctrls ) { op->o_tmpfree( rs->sr_ctrls[0], op->o_tmpmemctx ); op->o_tmpfree( rs->sr_ctrls, op->o_tmpmemctx ); rs->sr_ctrls = NULL; } return 0; } static void syncprov_detach_op( Operation *op, syncops *so, slap_overinst *on ) { Operation *op2; int i, alen = 0; size_t size; char *ptr; GroupAssertion *g1, *g2; /* count the search attrs */ for (i=0; op->ors_attrs && !BER_BVISNULL( &op->ors_attrs[i].an_name ); i++) { alen += op->ors_attrs[i].an_name.bv_len + 1; } /* Make a new copy of the operation */ size = sizeof(Operation) + sizeof(Opheader) + (i ? ( (i+1) * sizeof(AttributeName) + alen) : 0) + op->o_req_dn.bv_len + 1 + op->o_req_ndn.bv_len + 1 + op->o_ndn.bv_len + 1 + so->s_filterstr.bv_len + 1; op2 = (Operation *)ch_calloc( 1, size ); op2->o_hdr = (Opheader *)(op2+1); /* Copy the fields we care about explicitly, leave the rest alone */ *op2->o_hdr = *op->o_hdr; op2->o_tag = op->o_tag; op2->o_time = op->o_time; op2->o_bd = on->on_info->oi_origdb; op2->o_request = op->o_request; op2->o_private = on; if ( i ) { op2->ors_attrs = (AttributeName *)(op2->o_hdr + 1); ptr = (char *)(op2->ors_attrs+i+1); for (i=0; !BER_BVISNULL( &op->ors_attrs[i].an_name ); i++) { op2->ors_attrs[i] = op->ors_attrs[i]; op2->ors_attrs[i].an_name.bv_val = ptr; ptr = lutil_strcopy( ptr, op->ors_attrs[i].an_name.bv_val ) + 1; } BER_BVZERO( &op2->ors_attrs[i].an_name ); } else { ptr = (char *)(op2->o_hdr + 1); } op2->o_authz = op->o_authz; op2->o_ndn.bv_val = ptr; ptr = lutil_strcopy(ptr, op->o_ndn.bv_val) + 1; op2->o_dn = op2->o_ndn; op2->o_req_dn.bv_len = op->o_req_dn.bv_len; op2->o_req_dn.bv_val = ptr; ptr = lutil_strcopy(ptr, op->o_req_dn.bv_val) + 1; op2->o_req_ndn.bv_len = op->o_req_ndn.bv_len; op2->o_req_ndn.bv_val = ptr; ptr = lutil_strcopy(ptr, op->o_req_ndn.bv_val) + 1; op2->ors_filterstr.bv_val = ptr; strcpy( ptr, so->s_filterstr.bv_val ); op2->ors_filterstr.bv_len = so->s_filterstr.bv_len; /* Skip the AND/GE clause that we stuck on in front */ if ( so->s_flags & PS_FIX_FILTER ) { op2->ors_filter = op->ors_filter->f_and->f_next; so->s_flags ^= PS_FIX_FILTER; } else { op2->ors_filter = op->ors_filter; } op2->ors_filter = filter_dup( op2->ors_filter, NULL ); so->s_op = op2; /* Copy any cached group ACLs individually */ op2->o_groups = NULL; for ( g1=op->o_groups; g1; g1=g1->ga_next ) { g2 = ch_malloc( sizeof(GroupAssertion) + g1->ga_len ); *g2 = *g1; strcpy( g2->ga_ndn, g1->ga_ndn ); g2->ga_next = op2->o_groups; op2->o_groups = g2; } /* Don't allow any further group caching */ op2->o_do_not_cache = 1; /* Add op2 to conn so abandon will find us */ ldap_pvt_thread_mutex_lock( &op->o_conn->c_mutex ); op->o_conn->c_n_ops_executing++; op->o_conn->c_n_ops_completed--; LDAP_STAILQ_INSERT_TAIL( &op->o_conn->c_ops, op2, o_next ); so->s_flags |= PS_IS_DETACHED; ldap_pvt_thread_mutex_unlock( &op->o_conn->c_mutex ); /* Prevent anyone else from trying to send a result for this op */ op->o_abandon = 1; } static int syncprov_search_response( Operation *op, SlapReply *rs ) { searchstate *ss = op->o_callback->sc_private; slap_overinst *on = ss->ss_on; sync_control *srs = op->o_controls[slap_cids.sc_LDAPsync]; if ( rs->sr_type == REP_SEARCH || rs->sr_type == REP_SEARCHREF ) { Attribute *a; /* If we got a referral without a referral object, there's * something missing that we cannot replicate. Just ignore it. * The consumer will abort because we didn't send the expected * control. */ if ( !rs->sr_entry ) { assert( rs->sr_entry != NULL ); Debug( LDAP_DEBUG_ANY, "bogus referral in context\n",0,0,0 ); return SLAP_CB_CONTINUE; } a = attr_find( rs->sr_entry->e_attrs, slap_schema.si_ad_entryCSN ); if ( a == NULL && rs->sr_operational_attrs != NULL ) { a = attr_find( rs->sr_operational_attrs, slap_schema.si_ad_entryCSN ); } if ( a ) { /* Make sure entry is less than the snapshot'd contextCSN */ if ( ber_bvcmp( &a->a_nvals[0], &ss->ss_ctxcsn ) > 0 ) { Debug( LDAP_DEBUG_SYNC, "Entry %s CSN %s greater than snapshot %s\n", rs->sr_entry->e_name.bv_val, a->a_nvals[0].bv_val, ss->ss_ctxcsn.bv_val ); return LDAP_SUCCESS; } /* Don't send the ctx entry twice */ if ( !BER_BVISNULL( &srs->sr_state.ctxcsn ) && bvmatch( &a->a_nvals[0], &srs->sr_state.ctxcsn ) ) { Debug( LDAP_DEBUG_SYNC, "Entry %s CSN %s matches ctx %s\n", rs->sr_entry->e_name.bv_val, a->a_nvals[0].bv_val, srs->sr_state.ctxcsn.bv_val ); return LDAP_SUCCESS; } } rs->sr_ctrls = op->o_tmpalloc( sizeof(LDAPControl *)*2, op->o_tmpmemctx ); rs->sr_ctrls[1] = NULL; rs->sr_err = syncprov_state_ctrl( op, rs, rs->sr_entry, LDAP_SYNC_ADD, rs->sr_ctrls, 0, 0, NULL ); } else if ( rs->sr_type == REP_RESULT && rs->sr_err == LDAP_SUCCESS ) { struct berval cookie; slap_compose_sync_cookie( op, &cookie, &ss->ss_ctxcsn, srs->sr_state.rid ); /* Is this a regular refresh? */ if ( !ss->ss_so ) { rs->sr_ctrls = op->o_tmpalloc( sizeof(LDAPControl *)*2, op->o_tmpmemctx ); rs->sr_ctrls[1] = NULL; rs->sr_err = syncprov_done_ctrl( op, rs, rs->sr_ctrls, 0, 1, &cookie, ss->ss_present ? LDAP_SYNC_REFRESH_PRESENTS : LDAP_SYNC_REFRESH_DELETES ); op->o_tmpfree( cookie.bv_val, op->o_tmpmemctx ); } else { /* It's RefreshAndPersist, transition to Persist phase */ syncprov_sendinfo( op, rs, ss->ss_present ? LDAP_TAG_SYNC_REFRESH_PRESENT : LDAP_TAG_SYNC_REFRESH_DELETE, &cookie, 1, NULL, 0 ); op->o_tmpfree( cookie.bv_val, op->o_tmpmemctx ); /* Detach this Op from frontend control */ ldap_pvt_thread_mutex_lock( &ss->ss_so->s_mutex ); /* Turn off the refreshing flag */ ss->ss_so->s_flags ^= PS_IS_REFRESHING; syncprov_detach_op( op, ss->ss_so, on ); /* If there are queued responses, fire them off */ if ( ss->ss_so->s_res ) syncprov_qstart( ss->ss_so ); ldap_pvt_thread_mutex_unlock( &ss->ss_so->s_mutex ); return LDAP_SUCCESS; } } return SLAP_CB_CONTINUE; } static int syncprov_op_search( Operation *op, SlapReply *rs ) { slap_overinst *on = (slap_overinst *)op->o_bd->bd_info; syncprov_info_t *si = (syncprov_info_t *)on->on_bi.bi_private; slap_callback *cb; int gotstate = 0, nochange = 0, do_present; syncops *sop = NULL; searchstate *ss; sync_control *srs; struct berval ctxcsn; char csnbuf[LDAP_LUTIL_CSNSTR_BUFSIZE]; if ( !(op->o_sync_mode & SLAP_SYNC_REFRESH) ) return SLAP_CB_CONTINUE; if ( op->ors_deref & LDAP_DEREF_SEARCHING ) { send_ldap_error( op, rs, LDAP_PROTOCOL_ERROR, "illegal value for derefAliases" ); return rs->sr_err; } do_present = si->si_nopres ? 0 : 1; srs = op->o_controls[slap_cids.sc_LDAPsync]; op->o_managedsait = SLAP_CONTROL_NONCRITICAL; /* If this is a persistent search, set it up right away */ if ( op->o_sync_mode & SLAP_SYNC_PERSIST ) { syncops so = {0}; fbase_cookie fc; opcookie opc; slap_callback sc; fc.fss = &so; fc.fbase = 0; so.s_eid = NOID; so.s_op = op; so.s_flags = PS_IS_REFRESHING | PS_FIND_BASE; /* syncprov_findbase expects to be called as a callback... */ sc.sc_private = &opc; opc.son = on; ldap_pvt_thread_mutex_init( &so.s_mutex ); cb = op->o_callback; op->o_callback = ≻ rs->sr_err = syncprov_findbase( op, &fc ); op->o_callback = cb; ldap_pvt_thread_mutex_destroy( &so.s_mutex ); if ( rs->sr_err != LDAP_SUCCESS ) { send_ldap_result( op, rs ); return rs->sr_err; } sop = ch_malloc( sizeof( syncops )); *sop = so; ldap_pvt_thread_mutex_init( &sop->s_mutex ); sop->s_rid = srs->sr_state.rid; sop->s_inuse = 1; ldap_pvt_thread_mutex_lock( &si->si_ops_mutex ); sop->s_next = si->si_ops; si->si_ops = sop; ldap_pvt_thread_mutex_unlock( &si->si_ops_mutex ); } /* snapshot the ctxcsn */ ldap_pvt_thread_rdwr_rlock( &si->si_csn_rwlock ); strcpy( csnbuf, si->si_ctxcsnbuf ); ctxcsn.bv_len = si->si_ctxcsn.bv_len; ldap_pvt_thread_rdwr_runlock( &si->si_csn_rwlock ); ctxcsn.bv_val = csnbuf; /* If we have a cookie, handle the PRESENT lookups */ if ( !BER_BVISNULL( &srs->sr_state.ctxcsn )) { sessionlog *sl; /* The cookie was validated when it was parsed, just use it */ /* If just Refreshing and nothing has changed, shortcut it */ if ( bvmatch( &srs->sr_state.ctxcsn, &ctxcsn )) { nochange = 1; if ( !(op->o_sync_mode & SLAP_SYNC_PERSIST) ) { LDAPControl *ctrls[2]; ctrls[0] = NULL; ctrls[1] = NULL; syncprov_done_ctrl( op, rs, ctrls, 0, 0, NULL, LDAP_SYNC_REFRESH_DELETES ); rs->sr_ctrls = ctrls; rs->sr_err = LDAP_SUCCESS; send_ldap_result( op, rs ); rs->sr_ctrls = NULL; return rs->sr_err; } goto shortcut; } /* Do we have a sessionlog for this search? */ sl=si->si_logs; if ( sl ) { ldap_pvt_thread_mutex_lock( &sl->sl_mutex ); /* Are there any log entries, and is the consumer state * present in the session log? */ if ( sl->sl_num > 0 && ber_bvcmp( &srs->sr_state.ctxcsn, &sl->sl_mincsn ) >= 0 ) { do_present = 0; /* mutex is unlocked in playlog */ syncprov_playlog( op, rs, sl, srs, &ctxcsn ); } else { ldap_pvt_thread_mutex_unlock( &sl->sl_mutex ); } } /* Is the CSN still present in the database? */ if ( syncprov_findcsn( op, FIND_CSN ) != LDAP_SUCCESS ) { /* No, so a reload is required */ /* the 2.2 consumer doesn't send this hint */ if ( si->si_usehint && srs->sr_rhint == 0 ) { send_ldap_error( op, rs, LDAP_SYNC_REFRESH_REQUIRED, "sync cookie is stale" ); return rs->sr_err; } } else { gotstate = 1; /* If changed and doing Present lookup, send Present UUIDs */ if ( do_present && syncprov_findcsn( op, FIND_PRESENT ) != LDAP_SUCCESS ) { send_ldap_result( op, rs ); return rs->sr_err; } } } shortcut: /* Append CSN range to search filter, save original filter * for persistent search evaluation */ if ( sop ) { sop->s_filterstr= op->ors_filterstr; } /* If something changed, find the changes */ if ( gotstate && !nochange ) { Filter *fand, *fava; fand = op->o_tmpalloc( sizeof(Filter), op->o_tmpmemctx ); fand->f_choice = LDAP_FILTER_AND; fand->f_next = NULL; fava = op->o_tmpalloc( sizeof(Filter), op->o_tmpmemctx ); fand->f_and = fava; fava->f_choice = LDAP_FILTER_GE; fava->f_ava = op->o_tmpalloc( sizeof(AttributeAssertion), op->o_tmpmemctx ); fava->f_ava->aa_desc = slap_schema.si_ad_entryCSN; #ifdef LDAP_COMP_MATCH fava->f_ava->aa_cf = NULL; #endif ber_dupbv_x( &fava->f_ava->aa_value, &srs->sr_state.ctxcsn, op->o_tmpmemctx ); fava->f_next = op->ors_filter; op->ors_filter = fand; filter2bv_x( op, op->ors_filter, &op->ors_filterstr ); if ( sop ) sop->s_flags |= PS_FIX_FILTER; } /* Let our callback add needed info to returned entries */ cb = op->o_tmpcalloc(1, sizeof(slap_callback)+sizeof(searchstate), op->o_tmpmemctx); ss = (searchstate *)(cb+1); ss->ss_on = on; ss->ss_so = sop; ss->ss_present = do_present; ss->ss_ctxcsn.bv_len = ctxcsn.bv_len; ss->ss_ctxcsn.bv_val = ss->ss_csnbuf; strcpy( ss->ss_ctxcsn.bv_val, ctxcsn.bv_val ); cb->sc_response = syncprov_search_response; cb->sc_cleanup = syncprov_search_cleanup; cb->sc_private = ss; cb->sc_next = op->o_callback; op->o_callback = cb; #if 0 /* I don't think we need to shortcircuit back-bdb any more */ op->o_sync_mode &= SLAP_CONTROL_MASK; #endif /* If this is a persistent search and no changes were reported during * the refresh phase, just invoke the response callback to transition * us into persist phase */ if ( nochange ) { rs->sr_err = LDAP_SUCCESS; rs->sr_nentries = 0; send_ldap_result( op, rs ); return rs->sr_err; } return SLAP_CB_CONTINUE; } static int syncprov_operational( Operation *op, SlapReply *rs ) { slap_overinst *on = (slap_overinst *)op->o_bd->bd_info; syncprov_info_t *si = (syncprov_info_t *)on->on_bi.bi_private; if ( rs->sr_entry && dn_match( &rs->sr_entry->e_nname, op->o_bd->be_nsuffix )) { if ( SLAP_OPATTRS( rs->sr_attr_flags ) || ad_inlist( slap_schema.si_ad_contextCSN, rs->sr_attrs )) { Attribute *a, **ap = NULL; for ( a=rs->sr_entry->e_attrs; a; a=a->a_next ) { if ( a->a_desc == slap_schema.si_ad_contextCSN ) break; } if ( !a ) { for ( ap = &rs->sr_operational_attrs; *ap; ap=&(*ap)->a_next ); a = ch_malloc( sizeof(Attribute)); a->a_desc = slap_schema.si_ad_contextCSN; a->a_vals = ch_malloc( 2 * sizeof(struct berval)); a->a_vals[1].bv_val = NULL; a->a_nvals = a->a_vals; a->a_next = NULL; a->a_flags = 0; *ap = a; } ldap_pvt_thread_rdwr_rlock( &si->si_csn_rwlock ); if ( !ap ) { strcpy( a->a_vals[0].bv_val, si->si_ctxcsnbuf ); } else { ber_dupbv( &a->a_vals[0], &si->si_ctxcsn ); } ldap_pvt_thread_rdwr_runlock( &si->si_csn_rwlock ); } } return SLAP_CB_CONTINUE; } enum { SP_CHKPT = 1, SP_SESSL, SP_NOPRES, SP_USEHINT }; static ConfigDriver sp_cf_gen; static ConfigTable spcfg[] = { { "syncprov-checkpoint", "ops> bi; syncprov_info_t *si = (syncprov_info_t *)on->on_bi.bi_private; int rc = 0; if ( c->op == SLAP_CONFIG_EMIT ) { switch ( c->type ) { case SP_CHKPT: if ( si->si_chkops || si->si_chktime ) { struct berval bv; bv.bv_len = sprintf( c->msg, "%d %d", si->si_chkops, si->si_chktime ); bv.bv_val = c->msg; value_add_one( &c->rvalue_vals, &bv ); } else { rc = 1; } break; case SP_SESSL: if ( si->si_logs ) { c->value_int = si->si_logs->sl_size; } else { rc = 1; } break; case SP_NOPRES: if ( si->si_nopres ) { c->value_int = 1; } else { rc = 1; } break; case SP_USEHINT: if ( si->si_usehint ) { c->value_int = 1; } else { rc = 1; } break; } return rc; } else if ( c->op == LDAP_MOD_DELETE ) { switch ( c->type ) { case SP_CHKPT: si->si_chkops = 0; si->si_chktime = 0; break; case SP_SESSL: if ( si->si_logs ) si->si_logs->sl_size = 0; else rc = LDAP_NO_SUCH_ATTRIBUTE; break; case SP_NOPRES: if ( si->si_nopres ) si->si_nopres = 0; else rc = LDAP_NO_SUCH_ATTRIBUTE; break; case SP_USEHINT: if ( si->si_usehint ) si->si_usehint = 0; else rc = LDAP_NO_SUCH_ATTRIBUTE; break; } return rc; } switch ( c->type ) { case SP_CHKPT: if ( lutil_atoi( &si->si_chkops, c->argv[1] ) != 0 ) { snprintf( c->msg, sizeof( c->msg ), "%s unable to parse checkpoint ops # \"%s\"", c->argv[0], c->argv[1] ); Debug( LDAP_DEBUG_CONFIG|LDAP_DEBUG_NONE, "%s: %s\n", c->log, c->msg, 0 ); return ARG_BAD_CONF; } if ( si->si_chkops <= 0 ) { snprintf( c->msg, sizeof( c->msg ), "%s invalid checkpoint ops # \"%d\"", c->argv[0], si->si_chkops ); Debug( LDAP_DEBUG_CONFIG|LDAP_DEBUG_NONE, "%s: %s\n", c->log, c->msg, 0 ); return ARG_BAD_CONF; } if ( lutil_atoi( &si->si_chktime, c->argv[2] ) != 0 ) { snprintf( c->msg, sizeof( c->msg ), "%s unable to parse checkpoint time \"%s\"", c->argv[0], c->argv[1] ); Debug( LDAP_DEBUG_CONFIG|LDAP_DEBUG_NONE, "%s: %s\n", c->log, c->msg, 0 ); return ARG_BAD_CONF; } if ( si->si_chktime <= 0 ) { snprintf( c->msg, sizeof( c->msg ), "%s invalid checkpoint time \"%d\"", c->argv[0], si->si_chkops ); Debug( LDAP_DEBUG_CONFIG|LDAP_DEBUG_NONE, "%s: %s\n", c->log, c->msg, 0 ); return ARG_BAD_CONF; } si->si_chktime *= 60; break; case SP_SESSL: { sessionlog *sl; int size = c->value_int; if ( size < 0 ) { snprintf( c->msg, sizeof( c->msg ), "%s size %d is negative", c->argv[0], size ); Debug( LDAP_DEBUG_CONFIG|LDAP_DEBUG_NONE, "%s: %s\n", c->log, c->msg, 0 ); return ARG_BAD_CONF; } sl = si->si_logs; if ( !sl ) { sl = ch_malloc( sizeof( sessionlog ) + LDAP_LUTIL_CSNSTR_BUFSIZE ); sl->sl_mincsn.bv_val = (char *)(sl+1); sl->sl_mincsn.bv_len = 0; sl->sl_num = 0; sl->sl_head = sl->sl_tail = NULL; ldap_pvt_thread_mutex_init( &sl->sl_mutex ); si->si_logs = sl; } sl->sl_size = size; } break; case SP_NOPRES: si->si_nopres = c->value_int; break; case SP_USEHINT: si->si_usehint = c->value_int; break; } return rc; } /* ITS#3456 we cannot run this search on the main thread, must use a * child thread in order to insure we have a big enough stack. */ static void * syncprov_db_otask( void *ptr ) { syncprov_findcsn( ptr, FIND_MAXCSN ); return NULL; } /* Read any existing contextCSN from the underlying db. * Then search for any entries newer than that. If no value exists, * just generate it. Cache whatever result. */ static int syncprov_db_open( BackendDB *be ) { slap_overinst *on = (slap_overinst *) be->bd_info; syncprov_info_t *si = (syncprov_info_t *)on->on_bi.bi_private; Connection conn = { 0 }; OperationBuffer opbuf = { 0 }; char ctxcsnbuf[LDAP_LUTIL_CSNSTR_BUFSIZE]; Operation *op = (Operation *) &opbuf; Entry *e; Attribute *a; int rc; void *thrctx = NULL; if ( !SLAP_LASTMOD( be )) { Debug( LDAP_DEBUG_ANY, "syncprov_db_open: invalid config, lastmod must be enabled\n", 0, 0, 0 ); return -1; } if ( slapMode & SLAP_TOOL_MODE ) { return 0; } rc = overlay_register_control( be, LDAP_CONTROL_SYNC ); if ( rc ) { return rc; } thrctx = ldap_pvt_thread_pool_context(); connection_fake_init( &conn, op, thrctx ); op->o_bd = be; op->o_dn = be->be_rootdn; op->o_ndn = be->be_rootndn; ctxcsnbuf[0] = '\0'; op->o_bd->bd_info = on->on_info->oi_orig; rc = be_entry_get_rw( op, be->be_nsuffix, NULL, slap_schema.si_ad_contextCSN, 0, &e ); if ( e ) { ldap_pvt_thread_t tid; a = attr_find( e->e_attrs, slap_schema.si_ad_contextCSN ); if ( a ) { si->si_ctxcsn.bv_len = a->a_nvals[0].bv_len; if ( si->si_ctxcsn.bv_len >= sizeof(si->si_ctxcsnbuf )) si->si_ctxcsn.bv_len = sizeof(si->si_ctxcsnbuf)-1; strncpy( si->si_ctxcsnbuf, a->a_nvals[0].bv_val, si->si_ctxcsn.bv_len ); si->si_ctxcsnbuf[si->si_ctxcsn.bv_len] = '\0'; strcpy( ctxcsnbuf, si->si_ctxcsnbuf ); } be_entry_release_rw( op, e, 0 ); if ( !BER_BVISEMPTY( &si->si_ctxcsn ) ) { op->o_bd->bd_info = (BackendInfo *)on; op->o_req_dn = be->be_suffix[0]; op->o_req_ndn = be->be_nsuffix[0]; op->ors_scope = LDAP_SCOPE_SUBTREE; ldap_pvt_thread_create( &tid, 0, syncprov_db_otask, op ); ldap_pvt_thread_join( tid, NULL ); } } if ( BER_BVISEMPTY( &si->si_ctxcsn ) ) { if ( SLAP_SYNC_SHADOW( op->o_bd )) { /* If we're also a consumer, and we didn't get a contextCSN, * then don't generate anything, wait for our provider to send it * to us. */ goto out; } si->si_ctxcsn.bv_len = sizeof( si->si_ctxcsnbuf ); slap_get_csn( op, &si->si_ctxcsn, 0 ); } /* If our ctxcsn is different from what was read from the root * entry, make sure we do a checkpoint on close */ if ( strcmp( si->si_ctxcsnbuf, ctxcsnbuf )) { si->si_numops++; } out: op->o_bd->bd_info = (BackendInfo *)on; return 0; } /* Write the current contextCSN into the underlying db. */ static int syncprov_db_close( BackendDB *be ) { slap_overinst *on = (slap_overinst *) be->bd_info; syncprov_info_t *si = (syncprov_info_t *)on->on_bi.bi_private; if ( slapMode & SLAP_TOOL_MODE ) { return 0; } if ( si->si_numops ) { Connection conn; OperationBuffer opbuf; Operation *op = (Operation *) &opbuf; SlapReply rs = {REP_RESULT}; void *thrctx; thrctx = ldap_pvt_thread_pool_context(); connection_fake_init( &conn, op, thrctx ); op->o_bd = be; op->o_dn = be->be_rootdn; op->o_ndn = be->be_rootndn; syncprov_checkpoint( op, &rs, on ); } return 0; } static int syncprov_db_init( BackendDB *be ) { slap_overinst *on = (slap_overinst *)be->bd_info; syncprov_info_t *si; if ( SLAP_ISGLOBALOVERLAY( be ) ) { Debug( LDAP_DEBUG_ANY, "syncprov must be instantiated within a database.\n", 0, 0, 0 ); return 1; } si = ch_calloc(1, sizeof(syncprov_info_t)); on->on_bi.bi_private = si; ldap_pvt_thread_rdwr_init( &si->si_csn_rwlock ); ldap_pvt_thread_mutex_init( &si->si_ops_mutex ); ldap_pvt_thread_mutex_init( &si->si_mods_mutex ); si->si_ctxcsn.bv_val = si->si_ctxcsnbuf; csn_anlist[0].an_desc = slap_schema.si_ad_entryCSN; csn_anlist[0].an_name = slap_schema.si_ad_entryCSN->ad_cname; csn_anlist[1].an_desc = slap_schema.si_ad_entryUUID; csn_anlist[1].an_name = slap_schema.si_ad_entryUUID->ad_cname; uuid_anlist[0].an_desc = slap_schema.si_ad_entryUUID; uuid_anlist[0].an_name = slap_schema.si_ad_entryUUID->ad_cname; return 0; } static int syncprov_db_destroy( BackendDB *be ) { slap_overinst *on = (slap_overinst *)be->bd_info; syncprov_info_t *si = (syncprov_info_t *)on->on_bi.bi_private; if ( si ) { if ( si->si_logs ) { slog_entry *se = si->si_logs->sl_head; while ( se ) { slog_entry *se_next = se->se_next; ch_free( se ); se = se_next; } ch_free( si->si_logs ); } ldap_pvt_thread_mutex_destroy( &si->si_mods_mutex ); ldap_pvt_thread_mutex_destroy( &si->si_ops_mutex ); ldap_pvt_thread_rdwr_destroy( &si->si_csn_rwlock ); ch_free( si ); } return 0; } static int syncprov_parseCtrl ( Operation *op, SlapReply *rs, LDAPControl *ctrl ) { ber_tag_t tag; BerElementBuffer berbuf; BerElement *ber = (BerElement *)&berbuf; ber_int_t mode; ber_len_t len; struct berval cookie = BER_BVNULL; sync_control *sr; int rhint = 0; if ( op->o_sync != SLAP_CONTROL_NONE ) { rs->sr_text = "Sync control specified multiple times"; return LDAP_PROTOCOL_ERROR; } if ( op->o_pagedresults != SLAP_CONTROL_NONE ) { rs->sr_text = "Sync control specified with pagedResults control"; return LDAP_PROTOCOL_ERROR; } if ( BER_BVISEMPTY( &ctrl->ldctl_value ) ) { rs->sr_text = "Sync control value is empty (or absent)"; return LDAP_PROTOCOL_ERROR; } /* Parse the control value * syncRequestValue ::= SEQUENCE { * mode ENUMERATED { * -- 0 unused * refreshOnly (1), * -- 2 reserved * refreshAndPersist (3) * }, * cookie syncCookie OPTIONAL * } */ ber_init2( ber, &ctrl->ldctl_value, 0 ); if ( (tag = ber_scanf( ber, "{i" /*}*/, &mode )) == LBER_ERROR ) { rs->sr_text = "Sync control : mode decoding error"; return LDAP_PROTOCOL_ERROR; } switch( mode ) { case LDAP_SYNC_REFRESH_ONLY: mode = SLAP_SYNC_REFRESH; break; case LDAP_SYNC_REFRESH_AND_PERSIST: mode = SLAP_SYNC_REFRESH_AND_PERSIST; break; default: rs->sr_text = "Sync control : unknown update mode"; return LDAP_PROTOCOL_ERROR; } tag = ber_peek_tag( ber, &len ); if ( tag == LDAP_TAG_SYNC_COOKIE ) { if (( ber_scanf( ber, /*{*/ "m", &cookie )) == LBER_ERROR ) { rs->sr_text = "Sync control : cookie decoding error"; return LDAP_PROTOCOL_ERROR; } tag = ber_peek_tag( ber, &len ); } if ( tag == LDAP_TAG_RELOAD_HINT ) { if (( ber_scanf( ber, /*{*/ "b", &rhint )) == LBER_ERROR ) { rs->sr_text = "Sync control : rhint decoding error"; return LDAP_PROTOCOL_ERROR; } } if (( ber_scanf( ber, /*{*/ "}")) == LBER_ERROR ) { rs->sr_text = "Sync control : decoding error"; return LDAP_PROTOCOL_ERROR; } sr = op->o_tmpcalloc( 1, sizeof(struct sync_control), op->o_tmpmemctx ); sr->sr_rhint = rhint; if (!BER_BVISNULL(&cookie)) { ber_dupbv_x( &sr->sr_state.octet_str, &cookie, op->o_tmpmemctx ); slap_parse_sync_cookie( &sr->sr_state, op->o_tmpmemctx ); if ( sr->sr_state.rid == -1 ) { rs->sr_text = "Sync control : cookie parsing error"; return LDAP_PROTOCOL_ERROR; } } op->o_controls[slap_cids.sc_LDAPsync] = sr; op->o_sync = ctrl->ldctl_iscritical ? SLAP_CONTROL_CRITICAL : SLAP_CONTROL_NONCRITICAL; op->o_sync_mode |= mode; /* o_sync_mode shares o_sync */ return LDAP_SUCCESS; } /* This overlay is set up for dynamic loading via moduleload. For static * configuration, you'll need to arrange for the slap_overinst to be * initialized and registered by some other function inside slapd. */ static slap_overinst syncprov; int syncprov_initialize() { int rc; rc = register_supported_control( LDAP_CONTROL_SYNC, SLAP_CTRL_SEARCH, NULL, syncprov_parseCtrl, &slap_cids.sc_LDAPsync ); if ( rc != LDAP_SUCCESS ) { Debug( LDAP_DEBUG_ANY, "syncprov_init: Failed to register control %d\n", rc, 0, 0 ); return rc; } syncprov.on_bi.bi_type = "syncprov"; syncprov.on_bi.bi_db_init = syncprov_db_init; syncprov.on_bi.bi_db_destroy = syncprov_db_destroy; syncprov.on_bi.bi_db_open = syncprov_db_open; syncprov.on_bi.bi_db_close = syncprov_db_close; syncprov.on_bi.bi_op_abandon = syncprov_op_abandon; syncprov.on_bi.bi_op_cancel = syncprov_op_abandon; syncprov.on_bi.bi_op_add = syncprov_op_mod; syncprov.on_bi.bi_op_compare = syncprov_op_compare; syncprov.on_bi.bi_op_delete = syncprov_op_mod; syncprov.on_bi.bi_op_modify = syncprov_op_mod; syncprov.on_bi.bi_op_modrdn = syncprov_op_mod; syncprov.on_bi.bi_op_search = syncprov_op_search; syncprov.on_bi.bi_extended = syncprov_op_extended; syncprov.on_bi.bi_operational = syncprov_operational; syncprov.on_bi.bi_cf_ocs = spocs; generic_filter.f_desc = slap_schema.si_ad_objectClass; rc = config_register_schema( spcfg, spocs ); if ( rc ) return rc; return overlay_register( &syncprov ); } #if SLAPD_OVER_SYNCPROV == SLAPD_MOD_DYNAMIC int init_module( int argc, char *argv[] ) { return syncprov_initialize(); } #endif /* SLAPD_OVER_SYNCPROV == SLAPD_MOD_DYNAMIC */ #endif /* defined(SLAPD_OVER_SYNCPROV) */