openldap/servers/slapd/backglue.c

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/* backglue.c - backend glue routines */
/* $OpenLDAP$ */
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/* This work is part of OpenLDAP Software <http://www.openldap.org/>.
*
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* Copyright 2001-2004 The OpenLDAP Foundation.
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* 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
* <http://www.OpenLDAP.org/license.html>.
*/
/*
* Functions to glue a bunch of other backends into a single tree.
* All of the glued backends must share a common suffix. E.g., you
* can glue o=foo and ou=bar,o=foo but you can't glue o=foo and o=bar.
*
* This uses the backend structures and routines extensively, but is
* not an actual backend of its own. To use it you must add a "subordinate"
* keyword to the configuration of other backends. Subordinates will
* automatically be connected to their parent backend.
*
* The purpose of these functions is to allow you to split a single database
* into pieces (for load balancing purposes, whatever) but still be able
* to treat it as a single database after it's been split. As such, each
* of the glued backends should have identical rootdn and rootpw.
*
* If you need more elaborate configuration, you probably should be using
* back-meta instead.
* -- Howard Chu
*/
#include "portable.h"
#include <stdio.h>
#include <ac/string.h>
#include <ac/socket.h>
#define SLAPD_TOOLS
#include "slap.h"
typedef struct gluenode {
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BackendDB *gn_be;
struct berval gn_pdn;
} gluenode;
typedef struct glueinfo {
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BackendInfo gi_bi;
BackendDB gi_bd;
int gi_nodes;
gluenode gi_n[1];
} glueinfo;
static int glueMode;
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static BackendDB *glueBack;
static slap_response glue_back_response;
/* Just like select_backend, but only for our backends */
static BackendDB *
glue_back_select (
BackendDB *be,
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const char *dn
)
{
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glueinfo *gi = (glueinfo *) be->bd_info;
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struct berval bv;
int i;
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bv.bv_len = strlen(dn);
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bv.bv_val = (char *) dn;
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for (i = 0; i<gi->gi_nodes; i++) {
assert( gi->gi_n[i].gn_be->be_nsuffix );
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if (dnIsSuffix(&bv, &gi->gi_n[i].gn_be->be_nsuffix[0])) {
return gi->gi_n[i].gn_be;
}
}
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return NULL;
}
/* This function will only be called in tool mode */
static int
glue_back_open (
BackendInfo *bi
)
{
int rc = 0;
static int glueOpened = 0;
if (glueOpened) return 0;
glueOpened = 1;
/* If we were invoked in tool mode, open all the underlying backends */
if (slapMode & SLAP_TOOL_MODE) {
rc = backend_startup (NULL);
} /* other case is impossible */
return rc;
}
/* This function will only be called in tool mode */
static int
glue_back_close (
BackendInfo *bi
)
{
static int glueClosed = 0;
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int rc = 0;
if (glueClosed) return 0;
glueClosed = 1;
if (slapMode & SLAP_TOOL_MODE) {
rc = backend_shutdown (NULL);
}
return rc;
}
static int
glue_back_db_open (
BackendDB *be
)
{
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glueinfo *gi = (glueinfo *) be->bd_info;
static int glueOpened = 0;
int rc = 0;
if (glueOpened) return 0;
glueOpened = 1;
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gi->gi_bd.be_acl = be->be_acl;
gi->gi_bd.be_pending_csn_list = be->be_pending_csn_list;
gi->gi_bd.be_context_csn = be->be_context_csn;
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if (gi->gi_bd.bd_info->bi_db_open)
rc = gi->gi_bd.bd_info->bi_db_open(&gi->gi_bd);
return rc;
}
static int
glue_back_db_close (
BackendDB *be
)
{
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glueinfo *gi = (glueinfo *) be->bd_info;
static int glueClosed = 0;
if (glueClosed) return 0;
glueClosed = 1;
/* Close the master */
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if (gi->gi_bd.bd_info->bi_db_close)
gi->gi_bd.bd_info->bi_db_close( &gi->gi_bd );
return 0;
}
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static int
glue_back_db_destroy (
BackendDB *be
)
{
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glueinfo *gi = (glueinfo *) be->bd_info;
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if (gi->gi_bd.bd_info->bi_db_destroy)
gi->gi_bd.bd_info->bi_db_destroy( &gi->gi_bd );
free (gi);
return 0;
}
typedef struct glue_state {
int err;
int slimit;
int matchlen;
char *matched;
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int nrefs;
BerVarray refs;
} glue_state;
static int
glue_back_response ( Operation *op, SlapReply *rs )
{
glue_state *gs = op->o_callback->sc_private;
switch(rs->sr_type) {
case REP_SEARCH:
if ( gs->slimit != SLAP_NO_LIMIT
&& rs->sr_nentries >= gs->slimit )
{
rs->sr_err = gs->err = LDAP_SIZELIMIT_EXCEEDED;
return -1;
}
/* fallthru */
case REP_SEARCHREF:
return SLAP_CB_CONTINUE;
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default:
if (rs->sr_err == LDAP_SUCCESS ||
rs->sr_err == LDAP_SIZELIMIT_EXCEEDED ||
rs->sr_err == LDAP_TIMELIMIT_EXCEEDED ||
rs->sr_err == LDAP_ADMINLIMIT_EXCEEDED ||
rs->sr_err == LDAP_NO_SUCH_OBJECT ||
gs->err != LDAP_SUCCESS)
gs->err = rs->sr_err;
if (gs->err == LDAP_SUCCESS && gs->matched) {
ch_free (gs->matched);
gs->matched = NULL;
gs->matchlen = 0;
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}
if (gs->err != LDAP_SUCCESS && rs->sr_matched) {
int len;
len = strlen (rs->sr_matched);
if (len > gs->matchlen) {
if (gs->matched)
ch_free (gs->matched);
gs->matched = ch_strdup (rs->sr_matched);
gs->matchlen = len;
}
}
if (rs->sr_ref) {
int i, j, k;
BerVarray new;
for (i=0; rs->sr_ref[i].bv_val; i++);
j = gs->nrefs;
if (!j) {
new = ch_malloc ((i+1)*sizeof(struct berval));
} else {
new = ch_realloc(gs->refs,
(j+i+1)*sizeof(struct berval));
}
for (k=0; k<i; j++,k++) {
ber_dupbv( &new[j], &rs->sr_ref[k] );
}
new[j].bv_val = NULL;
gs->nrefs = j;
gs->refs = new;
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}
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}
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return 0;
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}
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static int
glue_back_search ( Operation *op, SlapReply *rs )
{
BackendDB *b0 = op->o_bd;
BackendDB *b1 = NULL;
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glueinfo *gi = (glueinfo *) b0->bd_info;
int i;
long stoptime = 0;
glue_state gs = {0, 0, 0, NULL, 0, NULL};
slap_callback cb = { NULL, glue_back_response, NULL, NULL };
int scope0, slimit0, tlimit0;
struct berval dn, ndn;
cb.sc_private = &gs;
cb.sc_next = op->o_callback;
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stoptime = slap_get_time () + op->ors_tlimit;
op->o_bd = glue_back_select (b0, op->o_req_ndn.bv_val);
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switch (op->ors_scope) {
case LDAP_SCOPE_BASE:
if (op->o_bd && op->o_bd->be_search) {
rs->sr_err = op->o_bd->be_search( op, rs );
} else {
send_ldap_error(op, rs, LDAP_UNWILLING_TO_PERFORM,
"No search target found");
}
return rs->sr_err;
case LDAP_SCOPE_ONELEVEL:
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case LDAP_SCOPE_SUBTREE:
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#ifdef LDAP_SCOPE_SUBORDINATE
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case LDAP_SCOPE_SUBORDINATE: /* FIXME */
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#endif
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if ( op->o_sync_mode & SLAP_SYNC_REFRESH ) {
if (op->o_bd && op->o_bd->be_search) {
rs->sr_err = op->o_bd->be_search( op, rs );
} else {
send_ldap_error(op, rs, LDAP_UNWILLING_TO_PERFORM,
"No search target found");
}
return rs->sr_err;
}
op->o_callback = &cb;
rs->sr_err = gs.err = LDAP_UNWILLING_TO_PERFORM;
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scope0 = op->ors_scope;
slimit0 = gs.slimit = op->ors_slimit;
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tlimit0 = op->ors_tlimit;
dn = op->o_req_dn;
ndn = op->o_req_ndn;
b1 = op->o_bd;
/*
* Execute in reverse order, most general first
*/
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for (i = gi->gi_nodes-1; i >= 0; i--) {
if (!gi->gi_n[i].gn_be || !gi->gi_n[i].gn_be->be_search)
continue;
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if (!dnIsSuffix(&gi->gi_n[i].gn_be->be_nsuffix[0], &b1->be_nsuffix[0]))
continue;
if (tlimit0 != SLAP_NO_LIMIT) {
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op->ors_tlimit = stoptime - slap_get_time ();
if (op->ors_tlimit <= 0) {
rs->sr_err = gs.err = LDAP_TIMELIMIT_EXCEEDED;
break;
}
}
if (slimit0 != SLAP_NO_LIMIT) {
op->ors_slimit = slimit0 - rs->sr_nentries;
if (op->ors_slimit < 0) {
rs->sr_err = gs.err = LDAP_SIZELIMIT_EXCEEDED;
break;
}
}
rs->sr_err = 0;
/*
* check for abandon
*/
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if (op->o_abandon) {
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goto end_of_loop;
}
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op->o_bd = gi->gi_n[i].gn_be;
assert( op->o_bd->be_suffix );
assert( op->o_bd->be_nsuffix );
if (scope0 == LDAP_SCOPE_ONELEVEL &&
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dn_match(&gi->gi_n[i].gn_pdn, &ndn))
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{
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op->ors_scope = LDAP_SCOPE_BASE;
op->o_req_dn = op->o_bd->be_suffix[0];
op->o_req_ndn = op->o_bd->be_nsuffix[0];
rs->sr_err = op->o_bd->be_search(op, rs);
} else if (scope0 == LDAP_SCOPE_SUBTREE &&
dn_match(&op->o_bd->be_nsuffix[0], &ndn))
{
rs->sr_err = op->o_bd->be_search( op, rs );
} else if (scope0 == LDAP_SCOPE_SUBTREE &&
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dnIsSuffix(&op->o_bd->be_nsuffix[0], &ndn))
{
op->o_req_dn = op->o_bd->be_suffix[0];
op->o_req_ndn = op->o_bd->be_nsuffix[0];
rs->sr_err = op->o_bd->be_search( op, rs );
if ( rs->sr_err == LDAP_NO_SUCH_OBJECT ) {
gs.err = LDAP_SUCCESS;
}
} else if (dnIsSuffix(&ndn, &op->o_bd->be_nsuffix[0])) {
rs->sr_err = op->o_bd->be_search( op, rs );
}
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switch ( gs.err ) {
/*
* Add errors that should result in dropping
* the search
*/
case LDAP_SIZELIMIT_EXCEEDED:
case LDAP_TIMELIMIT_EXCEEDED:
case LDAP_ADMINLIMIT_EXCEEDED:
case LDAP_NO_SUCH_OBJECT:
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goto end_of_loop;
default:
break;
}
}
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end_of_loop:;
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op->ors_scope = scope0;
op->ors_slimit = slimit0;
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op->ors_tlimit = tlimit0;
op->o_req_dn = dn;
op->o_req_ndn = ndn;
break;
}
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if ( !op->o_abandon ) {
op->o_callback = cb.sc_next;
rs->sr_err = gs.err;
rs->sr_matched = gs.matched;
rs->sr_ref = gs.refs;
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send_ldap_result( op, rs );
}
op->o_bd = b0;
if (gs.matched)
free (gs.matched);
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if (gs.refs)
ber_bvarray_free(gs.refs);
return rs->sr_err;
}
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static int
glue_tool_entry_open (
BackendDB *b0,
int mode
)
{
/* We don't know which backend to talk to yet, so just
* remember the mode and move on...
*/
glueMode = mode;
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glueBack = NULL;
return 0;
}
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static int
glue_tool_entry_close (
BackendDB *b0
)
{
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int rc = 0;
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if (glueBack) {
if (!glueBack->be_entry_close)
return 0;
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rc = glueBack->be_entry_close (glueBack);
}
return rc;
}
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static ID
glue_tool_entry_first (
BackendDB *b0
)
{
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glueinfo *gi = (glueinfo *) b0->bd_info;
int i;
/* If we're starting from scratch, start at the most general */
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if (!glueBack) {
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for (i = gi->gi_nodes-1; i >= 0; i--) {
if (gi->gi_n[i].gn_be->be_entry_open &&
gi->gi_n[i].gn_be->be_entry_first) {
glueBack = gi->gi_n[i].gn_be;
break;
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}
}
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}
if (!glueBack || !glueBack->be_entry_open || !glueBack->be_entry_first ||
glueBack->be_entry_open (glueBack, glueMode) != 0)
return NOID;
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return glueBack->be_entry_first (glueBack);
}
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static ID
glue_tool_entry_next (
BackendDB *b0
)
{
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glueinfo *gi = (glueinfo *) b0->bd_info;
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int i;
ID rc;
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if (!glueBack || !glueBack->be_entry_next)
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return NOID;
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rc = glueBack->be_entry_next (glueBack);
/* If we ran out of entries in one database, move on to the next */
while (rc == NOID) {
if ( glueBack && glueBack->be_entry_close )
glueBack->be_entry_close (glueBack);
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for (i=0; i<gi->gi_nodes; i++) {
if (gi->gi_n[i].gn_be == glueBack)
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break;
}
if (i == 0) {
glueBack = NULL;
break;
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} else {
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glueBack = gi->gi_n[i-1].gn_be;
rc = glue_tool_entry_first (b0);
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}
}
return rc;
}
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static Entry *
glue_tool_entry_get (
BackendDB *b0,
ID id
)
{
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if (!glueBack || !glueBack->be_entry_get)
return NULL;
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return glueBack->be_entry_get (glueBack, id);
}
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static ID
glue_tool_entry_put (
BackendDB *b0,
Entry *e,
struct berval *text
)
{
BackendDB *be;
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int rc;
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be = glue_back_select (b0, e->e_ndn);
if (!be->be_entry_put)
return NOID;
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if (!glueBack) {
rc = be->be_entry_open (be, glueMode);
if (rc != 0)
return NOID;
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} else if (be != glueBack) {
/* If this entry belongs in a different branch than the
* previous one, close the current database and open the
* new one.
*/
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glueBack->be_entry_close (glueBack);
rc = be->be_entry_open (be, glueMode);
if (rc != 0)
return NOID;
}
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glueBack = be;
return be->be_entry_put (be, e, text);
}
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static int
glue_tool_entry_reindex (
BackendDB *b0,
ID id
)
{
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if (!glueBack || !glueBack->be_entry_reindex)
return -1;
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return glueBack->be_entry_reindex (glueBack, id);
}
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static int
glue_tool_sync (
BackendDB *b0
)
{
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glueinfo *gi = (glueinfo *) b0->bd_info;
int i;
/* just sync everyone */
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for (i = 0; i<gi->gi_nodes; i++)
if (gi->gi_n[i].gn_be->be_sync)
gi->gi_n[i].gn_be->be_sync (gi->gi_n[i].gn_be);
return 0;
}
int
glue_sub_init( )
{
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int i, j;
int cont = num_subordinates;
BackendDB *b1, *be;
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BackendInfo *bi = NULL;
glueinfo *gi;
/* While there are subordinate backends, search backwards through the
* backends and connect them to their superior.
*/
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for (i = nBackendDB - 1, b1=&backendDB[i]; cont && i>=0; b1--,i--) {
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if (SLAP_GLUE_SUBORDINATE ( b1 ) ) {
/* The last database cannot be a subordinate of noone */
if (i == nBackendDB - 1) {
SLAP_DBFLAGS(b1) ^= SLAP_DBFLAG_GLUE_SUBORDINATE;
}
continue;
}
gi = NULL;
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for (j = i-1, be=&backendDB[j]; j>=0; be--,j--) {
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if ( ! SLAP_GLUE_SUBORDINATE( be ) ) {
continue;
}
/* We will only link it once */
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if ( SLAP_GLUE_LINKED( be ) ) {
continue;
}
assert( be->be_nsuffix );
assert( b1->be_nsuffix );
if (!dnIsSuffix(&be->be_nsuffix[0], &b1->be_nsuffix[0])) {
continue;
}
cont--;
SLAP_DBFLAGS(be) |= SLAP_DBFLAG_GLUE_LINKED;
if (gi == NULL) {
/* We create a copy of the superior's be
* structure, pointing to all of its original
* information. Then we replace elements of
* the superior's info with our own. The copy
* is used whenever we have operations to pass
* down to the real database.
*/
SLAP_DBFLAGS(b1) |= SLAP_DBFLAG_GLUE_INSTANCE;
gi = (glueinfo *)ch_malloc(sizeof(glueinfo));
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gi->gi_nodes = 0;
gi->gi_bd = *b1;
gi->gi_bi = *b1->bd_info;
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bi = (BackendInfo *)gi;
bi->bi_open = glue_back_open;
bi->bi_close = glue_back_close;
bi->bi_db_open = glue_back_db_open;
bi->bi_db_close = glue_back_db_close;
bi->bi_db_destroy = glue_back_db_destroy;
bi->bi_op_search = glue_back_search;
/*
* hooks for slap tools
*/
bi->bi_tool_entry_open = glue_tool_entry_open;
bi->bi_tool_entry_close = glue_tool_entry_close;
bi->bi_tool_entry_first = glue_tool_entry_first;
bi->bi_tool_entry_next = glue_tool_entry_next;
bi->bi_tool_entry_get = glue_tool_entry_get;
bi->bi_tool_entry_put = glue_tool_entry_put;
bi->bi_tool_entry_reindex = glue_tool_entry_reindex;
bi->bi_tool_sync = glue_tool_sync;
/* FIXME : will support later */
bi->bi_tool_dn2id_get = 0;
bi->bi_tool_id2entry_get = 0;
bi->bi_tool_entry_modify = 0;
} else {
gi = (glueinfo *)ch_realloc(gi,
sizeof(glueinfo) +
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gi->gi_nodes * sizeof(gluenode));
}
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gi->gi_n[gi->gi_nodes].gn_be = be;
dnParent( &be->be_nsuffix[0], &gi->gi_n[gi->gi_nodes].gn_pdn );
gi->gi_nodes++;
}
if (gi) {
/* One more node for the master */
gi = (glueinfo *)ch_realloc(gi,
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sizeof(glueinfo) + gi->gi_nodes * sizeof(gluenode));
gi->gi_n[gi->gi_nodes].gn_be = &gi->gi_bd;
dnParent( &b1->be_nsuffix[0], &gi->gi_n[gi->gi_nodes].gn_pdn );
gi->gi_nodes++;
2003-04-20 17:18:02 +08:00
b1->bd_info = (BackendInfo *)gi;
}
}
/* If there are any unresolved subordinates left, something is wrong */
return cont;
}