/* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 1999-2011 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 file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ /* ACKNOWLEDGEMENTS: * This work was initially developed by Kurt Spanier for inclusion * in OpenLDAP Software. */ /* * This tool is a MT reader. It behaves like slapd-read however * with one or more threads simultaneously using the same connection. * If -M is enabled, then M threads will also perform write operations. */ #include "portable.h" #include #include "ldap_pvt_thread.h" #include "ac/stdlib.h" #include "ac/ctype.h" #include "ac/param.h" #include "ac/socket.h" #include "ac/string.h" #include "ac/unistd.h" #include "ac/wait.h" #include "ldap.h" #include "lutil.h" #include "ldap_pvt.h" #include "slapd-common.h" #define MAXCONN 512 #define LOOPS 100 #define RETRIES 0 #define DEFAULT_BASE "ou=people,dc=example,dc=com" static void do_conn( char *uri, char *manager, struct berval *passwd, LDAP **ld, int nobind, int maxretries, int conn_num ); static void do_read( LDAP *ld, char *entry, char **attrs, int noattrs, int nobind, int maxloop, int maxretries, int delay, int force, int chaserefs, int idx ); static void do_random( LDAP *ld, char *sbase, char *filter, char **attrs, int noattrs, int nobind, int innerloop, int maxretries, int delay, int force, int chaserefs, int idx ); static void * do_onethread( void *arg ); static void * do_onerwthread( void *arg ); #define MAX_THREAD 1024 /* Use same array for readers and writers, offset writers by MAX_THREAD */ int rt_pass[MAX_THREAD*2]; int rt_fail[MAX_THREAD*2]; int *rwt_pass = rt_pass + MAX_THREAD; int *rwt_fail = rt_fail + MAX_THREAD; ldap_pvt_thread_t rtid[MAX_THREAD*2], *rwtid = rtid + MAX_THREAD; /* * Shared globals (command line args) */ LDAP *ld = NULL; char *entry = NULL; char *filter = NULL; int loops = LOOPS; int outerloops = 1; int retries = RETRIES; int delay = 0; int force = 0; int chaserefs = 0; char *srchattrs[] = { "1.1", NULL }; char **attrs = srchattrs; int noattrs = 0; int nobind = 0; int threads = 1; int rwthreads = 0; int verbose = 0; int noconns = 1; LDAP **lds = NULL; static void thread_error(int idx, char *string) { char thrstr[BUFSIZ]; snprintf(thrstr, BUFSIZ, "error on tidx: %d: %s", idx, string); tester_error( thrstr ); } static void thread_output(int idx, char *string) { char thrstr[BUFSIZ]; snprintf(thrstr, BUFSIZ, "tidx: %d says: %s", idx, string); tester_error( thrstr ); } static void thread_verbose(int idx, char *string) { char thrstr[BUFSIZ]; if (!verbose) return; snprintf(thrstr, BUFSIZ, "tidx: %d says: %s", idx, string); tester_error( thrstr ); } static void usage( char *name ) { fprintf( stderr, "usage: %s " "-H | ([-h ] -p ) " "-D " "-w " "-e " "[-A] " "[-C] " "[-F] " "[-N] " "[-v] " "[-c connections] " "[-f filter] " "[-i ] " "[-l ] " "[-L ] " "[-m threads] " "[-M threads] " "[-r ] " "[-t ] " "[-T ] " "[] " "\n", name ); exit( EXIT_FAILURE ); } int main( int argc, char **argv ) { int i; char *uri = NULL; char *host = "localhost"; int port = -1; char *manager = NULL; struct berval passwd = { 0, NULL }; char outstr[BUFSIZ]; int ptpass; int testfail = 0; tester_init( "slapd-mtread", TESTER_READ ); /* by default, tolerate referrals and no such object */ tester_ignore_str2errlist( "REFERRAL,NO_SUCH_OBJECT" ); while ( (i = getopt( argc, argv, "ACc:D:e:Ff:H:h:i:L:l:M:m:p:r:t:T:w:v" )) != EOF ) { switch ( i ) { case 'A': noattrs++; break; case 'C': chaserefs++; break; case 'H': /* the server uri */ uri = strdup( optarg ); break; case 'h': /* the servers host */ host = strdup( optarg ); case 'i': tester_ignore_str2errlist( optarg ); break; case 'N': nobind++; break; case 'v': verbose++; break; case 'p': /* the servers port */ if ( lutil_atoi( &port, optarg ) != 0 ) { usage( argv[0] ); } break; case 'D': /* the servers manager */ manager = strdup( optarg ); break; case 'w': /* the server managers password */ passwd.bv_val = strdup( optarg ); passwd.bv_len = strlen( optarg ); memset( optarg, '*', passwd.bv_len ); break; case 'c': /* the number of connections */ if ( lutil_atoi( &noconns, optarg ) != 0 ) { usage( argv[0] ); } break; case 'e': /* DN to search for */ entry = strdup( optarg ); break; case 'f': /* the search request */ filter = strdup( optarg ); break; case 'F': force++; break; case 'l': /* the number of loops */ if ( lutil_atoi( &loops, optarg ) != 0 ) { usage( argv[0] ); } break; case 'L': /* the number of outerloops */ if ( lutil_atoi( &outerloops, optarg ) != 0 ) { usage( argv[0] ); } break; case 'M': /* the number of R/W threads */ if ( lutil_atoi( &rwthreads, optarg ) != 0 ) { usage( argv[0] ); } if (rwthreads > MAX_THREAD) rwthreads = MAX_THREAD; break; case 'm': /* the number of threads */ if ( lutil_atoi( &threads, optarg ) != 0 ) { usage( argv[0] ); } if (threads > MAX_THREAD) threads = MAX_THREAD; break; case 'r': /* the number of retries */ if ( lutil_atoi( &retries, optarg ) != 0 ) { usage( argv[0] ); } break; case 't': /* delay in seconds */ if ( lutil_atoi( &delay, optarg ) != 0 ) { usage( argv[0] ); } break; case 'T': attrs = ldap_str2charray( optarg, "," ); if ( attrs == NULL ) { usage( argv[0] ); } break; default: usage( argv[0] ); break; } } if (( entry == NULL ) || ( port == -1 && uri == NULL )) usage( argv[0] ); if ( *entry == '\0' ) { fprintf( stderr, "%s: invalid EMPTY entry DN.\n", argv[0] ); exit( EXIT_FAILURE ); } if ( argv[optind] != NULL ) { attrs = &argv[optind]; } if (noconns < 1) noconns = 1; if (noconns > MAXCONN) noconns = MAXCONN; lds = (LDAP **) calloc( sizeof(LDAP *), noconns); if (lds == NULL) { fprintf( stderr, "%s: Memory error: calloc noconns.\n", argv[0] ); exit( EXIT_FAILURE ); } uri = tester_uri( uri, host, port ); /* One connection and one connection only */ do_conn( uri, manager, &passwd, &ld, nobind, retries, 0 ); lds[0] = ld; for(i = 1; i < noconns; i++) { do_conn( uri, manager, &passwd, &lds[i], nobind, retries, i ); } ldap_pvt_thread_initialize(); snprintf(outstr, BUFSIZ, "MT Test Start: conns: %d (%s)", noconns, uri); tester_error(outstr); snprintf(outstr, BUFSIZ, "Threads: RO: %d RW: %d", threads, rwthreads); tester_error(outstr); /* Set up read only threads */ for ( i = 0; i < threads; i++ ) { ldap_pvt_thread_create( &rtid[i], 0, do_onethread, &rtid[i]); snprintf(outstr, BUFSIZ, "Created RO thread %d", i); thread_verbose(-1, outstr); } /* Set up read/write threads */ for ( i = 0; i < rwthreads; i++ ) { ldap_pvt_thread_create( &rwtid[i], 0, do_onerwthread, &rwtid[i]); snprintf(outstr, BUFSIZ, "Created RW thread %d", i + MAX_THREAD); thread_verbose(-1, outstr); } ptpass = outerloops * loops; /* wait for read only threads to complete */ for ( i = 0; i < threads; i++ ) ldap_pvt_thread_join(rtid[i], NULL); /* wait for read/write threads to complete */ for ( i = 0; i < rwthreads; i++ ) ldap_pvt_thread_join(rwtid[i], NULL); for(i = 0; i < noconns; i++) { if ( lds[i] != NULL ) { ldap_unbind_ext( lds[i], NULL, NULL ); } } free( lds ); for ( i = 0; i < threads; i++ ) { snprintf(outstr, BUFSIZ, "RO thread %d pass=%d fail=%d", i, rt_pass[i], rt_fail[i]); tester_error(outstr); if (rt_fail[i] != 0 || rt_pass[i] != ptpass) { snprintf(outstr, BUFSIZ, "FAIL RO thread %d", i); tester_error(outstr); testfail++; } } for ( i = 0; i < rwthreads; i++ ) { snprintf(outstr, BUFSIZ, "RW thread %d pass=%d fail=%d", i + MAX_THREAD, rwt_pass[i], rwt_fail[i]); tester_error(outstr); if (rwt_fail[i] != 0 || rwt_pass[i] != ptpass) { snprintf(outstr, BUFSIZ, "FAIL RW thread %d", i); tester_error(outstr); testfail++; } } snprintf(outstr, BUFSIZ, "MT Test complete" ); tester_error(outstr); if (testfail) exit( EXIT_FAILURE ); exit( EXIT_SUCCESS ); } static void * do_onethread( void *arg ) { int i, j, thisconn; LDAP **mlds; char thrstr[BUFSIZ]; int rc, refcnt = 0; int idx = (ldap_pvt_thread_t *)arg - rtid; mlds = (LDAP **) calloc( sizeof(LDAP *), noconns); if (mlds == NULL) { thread_error( idx, "Memory error: thread calloc for noconns" ); exit( EXIT_FAILURE ); } for ( j = 0; j < outerloops; j++ ) { for(i = 0; i < noconns; i++) { mlds[i] = ldap_dup(lds[i]); if (mlds[i] == NULL) { thread_error( idx, "ldap_dup error" ); } } rc = ldap_get_option(mlds[0], LDAP_OPT_SESSION_REFCNT, &refcnt); snprintf(thrstr, BUFSIZ, "RO Thread conns: %d refcnt: %d (rc = %d)", noconns, refcnt, rc); thread_verbose(idx, thrstr); thisconn = (idx + j) % noconns; if (thisconn < 0 || thisconn >= noconns) thisconn = 0; if (mlds[thisconn] == NULL) { thread_error( idx, "(failed to dup)"); tester_perror( "ldap_dup", "(failed to dup)" ); exit( EXIT_FAILURE ); } snprintf(thrstr, BUFSIZ, "Using conn %d", thisconn); thread_verbose(idx, thrstr); if ( filter != NULL ) { do_random( mlds[thisconn], entry, filter, attrs, noattrs, nobind, loops, retries, delay, force, chaserefs, idx ); } else { do_read( mlds[thisconn], entry, attrs, noattrs, nobind, loops, retries, delay, force, chaserefs, idx ); } for(i = 0; i < noconns; i++) { (void) ldap_destroy(mlds[i]); mlds[i] = NULL; } } free( mlds ); return( NULL ); } static void * do_onerwthread( void *arg ) { int i, j, thisconn; LDAP **mlds, *ld; char thrstr[BUFSIZ]; char dn[256], uids[32], cns[32], *base; LDAPMod *attrp[5], attrs[4]; char *oc_vals[] = { "top", "OpenLDAPperson", NULL }; char *cn_vals[] = { NULL, NULL }; char *sn_vals[] = { NULL, NULL }; char *uid_vals[] = { NULL, NULL }; int ret; int adds = 0; int dels = 0; int rc, refcnt = 0; int idx = (ldap_pvt_thread_t *)arg - rtid; mlds = (LDAP **) calloc( sizeof(LDAP *), noconns); if (mlds == NULL) { thread_error( idx, "Memory error: thread calloc for noconns" ); exit( EXIT_FAILURE ); } snprintf(uids, sizeof(uids), "rwtest%04d", idx); snprintf(cns, sizeof(cns), "rwtest%04d", idx); /* add setup */ for (i = 0; i < 4; i++) { attrp[i] = &attrs[i]; attrs[i].mod_op = 0; } attrp[4] = NULL; attrs[0].mod_type = "objectClass"; attrs[0].mod_values = oc_vals; attrs[1].mod_type = "cn"; attrs[1].mod_values = cn_vals; cn_vals[0] = &cns[0]; attrs[2].mod_type = "sn"; attrs[2].mod_values = sn_vals; sn_vals[0] = &cns[0]; attrs[3].mod_type = "uid"; attrs[3].mod_values = uid_vals; uid_vals[0] = &uids[0]; for ( j = 0; j < outerloops; j++ ) { for(i = 0; i < noconns; i++) { mlds[i] = ldap_dup(lds[i]); if (mlds[i] == NULL) { thread_error( idx, "ldap_dup error" ); } } rc = ldap_get_option(mlds[0], LDAP_OPT_SESSION_REFCNT, &refcnt); snprintf(thrstr, BUFSIZ, "RW Thread conns: %d refcnt: %d (rc = %d)", noconns, refcnt, rc); thread_verbose(idx, thrstr); thisconn = (idx + j) % noconns; if (thisconn < 0 || thisconn >= noconns) thisconn = 0; if (mlds[thisconn] == NULL) { thread_error( idx, "(failed to dup)"); tester_perror( "ldap_dup", "(failed to dup)" ); exit( EXIT_FAILURE ); } snprintf(thrstr, BUFSIZ, "START RW Thread using conn %d", thisconn); thread_verbose(idx, thrstr); ld = mlds[thisconn]; if (entry != NULL) base = entry; else base = DEFAULT_BASE; snprintf(dn, 256, "cn=%s,%s", cns, base); adds = 0; dels = 0; for (i = 0; i < loops; i++) { ret = ldap_add_ext_s(ld, dn, &attrp[0], NULL, NULL); if (ret == LDAP_SUCCESS) { adds++; ret = ldap_delete_ext_s(ld, dn, NULL, NULL); if (ret == LDAP_SUCCESS) { dels++; rt_pass[idx]++; } else { thread_output(idx, ldap_err2string(ret)); rt_fail[idx]++; } } else { thread_output(idx, ldap_err2string(ret)); rt_fail[idx]++; } } snprintf(thrstr, BUFSIZ, "INNER STOP RW Thread using conn %d (%d/%d)", thisconn, adds, dels); thread_verbose(idx, thrstr); for(i = 0; i < noconns; i++) { (void) ldap_destroy(mlds[i]); mlds[i] = NULL; } } free( mlds ); return( NULL ); } static void do_conn( char *uri, char *manager, struct berval *passwd, LDAP **ldp, int nobind, int maxretries, int conn_num ) { LDAP *ld = NULL; int version = LDAP_VERSION3; int i = 0, do_retry = maxretries; int rc = LDAP_SUCCESS; char thrstr[BUFSIZ]; retry:; ldap_initialize( &ld, uri ); if ( ld == NULL ) { snprintf( thrstr, BUFSIZ, "connection: %d", conn_num ); tester_error( thrstr ); tester_perror( "ldap_initialize", NULL ); exit( EXIT_FAILURE ); } (void) ldap_set_option( ld, LDAP_OPT_PROTOCOL_VERSION, &version ); (void) ldap_set_option( ld, LDAP_OPT_REFERRALS, chaserefs ? LDAP_OPT_ON : LDAP_OPT_OFF ); if ( do_retry == maxretries ) { snprintf( thrstr, BUFSIZ, "do_conn #%d\n", conn_num ); thread_verbose( -1, thrstr ); } if ( nobind == 0 ) { rc = ldap_sasl_bind_s( ld, manager, LDAP_SASL_SIMPLE, passwd, NULL, NULL, NULL ); if ( rc != LDAP_SUCCESS ) { snprintf( thrstr, BUFSIZ, "connection: %d", conn_num ); tester_error( thrstr ); tester_ldap_error( ld, "ldap_sasl_bind_s", NULL ); switch ( rc ) { case LDAP_BUSY: case LDAP_UNAVAILABLE: if ( do_retry > 0 ) { ldap_unbind_ext( ld, NULL, NULL ); ld = NULL; do_retry--; if ( delay != 0 ) { sleep( delay ); } goto retry; } /* fallthru */ default: break; } exit( EXIT_FAILURE ); } } *ldp = ld; } static void do_random( LDAP *ld, char *sbase, char *filter, char **srchattrs, int noattrs, int nobind, int innerloop, int maxretries, int delay, int force, int chaserefs, int idx ) { int i = 0, do_retry = maxretries; char *attrs[ 2 ]; int rc = LDAP_SUCCESS; int nvalues = 0; char **values = NULL; LDAPMessage *res = NULL, *e = NULL; char thrstr[BUFSIZ]; attrs[ 0 ] = LDAP_NO_ATTRS; attrs[ 1 ] = NULL; snprintf( thrstr, BUFSIZ, "Read(%d): base=\"%s\", filter=\"%s\".\n", innerloop, sbase, filter ); thread_verbose( idx, thrstr ); rc = ldap_search_ext_s( ld, sbase, LDAP_SCOPE_SUBTREE, filter, attrs, 0, NULL, NULL, NULL, LDAP_NO_LIMIT, &res ); switch ( rc ) { case LDAP_SIZELIMIT_EXCEEDED: case LDAP_TIMELIMIT_EXCEEDED: case LDAP_SUCCESS: nvalues = ldap_count_entries( ld, res ); if ( nvalues == 0 ) { if ( rc ) { tester_ldap_error( ld, "ldap_search_ext_s", NULL ); } break; } values = malloc( ( nvalues + 1 ) * sizeof( char * ) ); for ( i = 0, e = ldap_first_entry( ld, res ); e != NULL; i++, e = ldap_next_entry( ld, e ) ) { values[ i ] = ldap_get_dn( ld, e ); } values[ i ] = NULL; ldap_msgfree( res ); if ( do_retry == maxretries ) { snprintf( thrstr, BUFSIZ, "Read base=\"%s\" filter=\"%s\" got %d values.\n", sbase, filter, nvalues ); thread_verbose( idx, thrstr ); } for ( i = 0; i < innerloop; i++ ) { int r = ((double)nvalues)*rand()/(RAND_MAX + 1.0); do_read( ld, values[ r ], srchattrs, noattrs, nobind, 1, maxretries, delay, force, chaserefs, idx ); } for( i = 0; i < nvalues; i++) { if (values[i] != NULL) ldap_memfree( values[i] ); } free( values ); break; default: tester_ldap_error( ld, "ldap_search_ext_s", NULL ); break; } snprintf( thrstr, BUFSIZ, "Search done (%d).\n", rc ); thread_verbose( idx, thrstr ); } static void do_read( LDAP *ld, char *entry, char **attrs, int noattrs, int nobind, int maxloop, int maxretries, int delay, int force, int chaserefs, int idx ) { int i = 0, do_retry = maxretries; int rc = LDAP_SUCCESS; char thrstr[BUFSIZ]; retry:; if ( do_retry == maxretries ) { snprintf( thrstr, BUFSIZ, "Read(%d): entry=\"%s\".\n", maxloop, entry ); thread_verbose( idx, thrstr ); } snprintf(thrstr, BUFSIZ, "LD %p cnt: %d (retried %d) (%s)", \ (void *) ld, maxloop, (do_retry - maxretries), entry); thread_verbose( idx, thrstr ); for ( ; i < maxloop; i++ ) { LDAPMessage *res = NULL; rc = ldap_search_ext_s( ld, entry, LDAP_SCOPE_BASE, NULL, attrs, noattrs, NULL, NULL, NULL, LDAP_NO_LIMIT, &res ); if ( res != NULL ) { ldap_msgfree( res ); } if ( rc == 0 ) { rt_pass[idx]++; } else { int first = tester_ignore_err( rc ); char buf[ BUFSIZ ]; rt_fail[idx]++; snprintf( buf, sizeof( buf ), "ldap_search_ext_s(%s)", entry ); /* if ignore.. */ if ( first ) { /* only log if first occurrence */ if ( ( force < 2 && first > 0 ) || abs(first) == 1 ) { tester_ldap_error( ld, buf, NULL ); } continue; } /* busy needs special handling */ tester_ldap_error( ld, buf, NULL ); if ( rc == LDAP_BUSY && do_retry > 0 ) { do_retry--; goto retry; } break; } } }