/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Processes name2sid & sid2name batched lookups for a given user or * computer from an AD Directory server using GSSAPI authentication */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "idmapd.h" /* * Internal data structures for this code */ /* Attribute names and filter format strings */ #define OBJECTSID "objectSid" #define OBJECTSIDFILTER "(objectSid=%s)" #define SAMACCOUNTNAME "sAMAccountName" #define SANFILTER "(sAMAccountName=%.*s)" #define OBJECTCLASS "objectClass" /* * This should really be in some file or so; we have a * private version of sid_t, and so must other components of ON until we * rationalize this. */ typedef struct sid { uchar_t version; uchar_t sub_authority_count; uint64_t authority; /* really, 48-bits */ rid_t sub_authorities[SID_MAX_SUB_AUTHORITIES]; } sid_t; /* A single DS */ typedef struct ad_host { struct ad_host *next; ad_t *owner; /* ad_t to which this belongs */ pthread_mutex_t lock; LDAP *ld; /* LDAP connection */ uint32_t ref; /* ref count */ time_t idletime; /* time since last activity */ int dead; /* error on LDAP connection */ /* * Used to distinguish between different instances of LDAP * connections to this same DS. We need this so we never mix up * results for a given msgID from one connection with those of * another earlier connection where two batch state structures * share this ad_host object but used different LDAP connections * to send their LDAP searches. */ uint64_t generation; /* LDAP DS info */ char *host; int port; /* hardwired to SASL GSSAPI only for now */ char *saslmech; unsigned saslflags; } ad_host_t; /* A set of DSs for a given AD partition; ad_t typedef comes from adutil.h */ struct ad { char *dflt_w2k_dom; /* used to qualify bare names */ char *basedn; /* derived from dflt domain */ pthread_mutex_t lock; uint32_t ref; idmap_ad_partition_t partition; /* Data or global catalog? */ }; /* * A place to put the results of a batched (async) query * * There is one of these for every query added to a batch object * (idmap_query_state, see below). */ typedef struct idmap_q { char **result; /* name or stringified SID */ char **domain; /* name of domain of object */ rid_t *rid; /* for n2s, if not NULL */ int *sid_type; /* if not NULL */ idmap_retcode *rc; int msgid; /* LDAP message ID */ /* * Bitfield containing state needed to know when we're done * processing search results related to this query's LDAP * searches. Mostly self-explanatory. */ uint16_t n2s : 1; /* name->SID or SID->name? */ uint16_t got_reply : 1; uint16_t got_results : 1; uint16_t got_objectSid : 1; uint16_t got_objectClass : 1; uint16_t got_samAcctName : 1; } idmap_q_t; /* Batch context structure; typedef is in header file */ struct idmap_query_state { idmap_query_state_t *next; int qcount; /* how many queries */ uint32_t qlastsent; uint32_t qinflight; /* how many queries in flight */ uint16_t qdead; /* oops, lost LDAP connection */ ad_host_t *qadh; /* LDAP connection */ uint64_t qadh_gen; /* same as qadh->generation */ idmap_q_t queries[1]; /* array of query results */ }; /* * List of query state structs -- needed so we can "route" LDAP results * to the right context if multiple threads should be using the same * connection concurrently */ static idmap_query_state_t *qstatehead = NULL; static pthread_mutex_t qstatelock = PTHREAD_MUTEX_INITIALIZER; /* * List of DSs, needed by the idle connection reaper thread */ static ad_host_t *host_head = NULL; static pthread_t reaperid = (pthread_t)-1; static pthread_mutex_t adhostlock = PTHREAD_MUTEX_INITIALIZER; /*ARGSUSED*/ static int idmap_saslcallback(LDAP *ld, unsigned flags, void *defaults, void *prompts) { sasl_interact_t *interact; if (prompts == NULL || flags != LDAP_SASL_INTERACTIVE) return (LDAP_PARAM_ERROR); /* There should be no extra arguemnts for SASL/GSSAPI authentication */ for (interact = prompts; interact->id != SASL_CB_LIST_END; interact++) { interact->result = NULL; interact->len = 0; } return (LDAP_SUCCESS); } /* Turn "foo.bar.com" into "dc=foo,dc=bar,dc=com" */ static char * dns2dn(const char *dns) { int nameparts; /* Sigh, ldap_dns_to_dn()'s first arg should be a const char * */ return (ldap_dns_to_dn((char *)dns, &nameparts)); } /* * Turn "dc=foo,dc=bar,dc=com" into "foo.bar.com"; ignores any other * attributes (CN, etc...) */ static char * dn2dns(const char *dn) { char **rdns = NULL; char **attrs = NULL; char **labels = NULL; char *dns = NULL; char **rdn, **attr, **label; int maxlabels = 5; int nlabels = 0; int dnslen; /* * There is no reverse of ldap_dns_to_dn() in our libldap, so we * have to do the hard work here for now. */ /* * This code is much too liberal: it looks for "dc" attributes * in all RDNs of the DN. In theory this could cause problems * if people were to use "dc" in nodes other than the root of * the tree, but in practice noone, least of all Active * Directory, does that. * * On the other hand, this code is much too conservative: it * does not make assumptions about ldap_explode_dn(), and _that_ * is the true for looking at every attr of every RDN. * * Since we only ever look at dc and those must be DNS labels, * at least until we get around to supporting IDN here we * shouldn't see escaped labels from AD nor from libldap, though * the spec (RFC2253) does allow libldap to escape things that * don't need escaping -- if that should ever happen then * libldap will need a spanking, and we can take care of that. */ /* Explode a DN into RDNs */ if ((rdns = ldap_explode_dn(dn, 0)) == NULL) return (NULL); labels = calloc(maxlabels + 1, sizeof (char *)); label = labels; for (rdn = rdns; *rdn != NULL; rdn++) { if (attrs != NULL) ldap_value_free(attrs); /* Explode each RDN, look for DC attr, save val as DNS label */ if ((attrs = ldap_explode_rdn(rdn[0], 0)) == NULL) goto done; for (attr = attrs; *attr != NULL; attr++) { if (strncasecmp(*attr, "dc=", 3) != 0) continue; /* Found a DNS label */ labels[nlabels++] = strdup((*attr) + 3); if (nlabels == maxlabels) { char **tmp; tmp = realloc(labels, sizeof (char *) * (maxlabels + 1)); if (tmp == NULL) goto done; labels = tmp; labels[nlabels] = NULL; } /* There should be just one DC= attr per-RDN */ break; } } /* * Got all the labels, now join with '.' * * We need room for nlabels - 1 periods ('.'), one nul * terminator, and the strlen() of each label. */ dnslen = nlabels; for (label = labels; *label != NULL; label++) dnslen += strlen(*label); if ((dns = malloc(dnslen)) == NULL) goto done; *dns = '\0'; for (label = labels; *label != NULL; label++) { (void) strlcat(dns, *label, dnslen); /* * NOTE: the last '.' won't be appended -- there's no room * for it! */ (void) strlcat(dns, ".", dnslen); } done: if (labels != NULL) { for (label = labels; *label != NULL; label++) free(*label); free(labels); } if (attrs != NULL) ldap_value_free(attrs); if (rdns != NULL) ldap_value_free(rdns); return (dns); } /* * Keep connection management simple for now, extend or replace later * with updated libsldap code. */ #define ADREAPERSLEEP 60 #define ADCONN_TIME 300 /* * Idle connection reaping side of connection management * * Every minute wake up and look for connections that have been idle for * five minutes or more and close them. */ /*ARGSUSED*/ static void adreaper(void *arg) { ad_host_t *adh; time_t now; timespec_t ts; ts.tv_sec = ADREAPERSLEEP; ts.tv_nsec = 0; for (;;) { /* * nanosleep(3RT) is thead-safe (no SIGALRM) and more * portable than usleep(3C) */ (void) nanosleep(&ts, NULL); (void) pthread_mutex_lock(&adhostlock); now = time(NULL); for (adh = host_head; adh != NULL; adh = adh->next) { (void) pthread_mutex_lock(&adh->lock); if (adh->ref == 0 && adh->idletime != 0 && adh->idletime + ADCONN_TIME < now) { if (adh->ld) { (void) ldap_unbind(adh->ld); adh->ld = NULL; adh->idletime = 0; adh->ref = 0; } } (void) pthread_mutex_unlock(&adh->lock); } (void) pthread_mutex_unlock(&adhostlock); } } int idmap_ad_alloc(ad_t **new_ad, const char *default_domain, idmap_ad_partition_t part) { ad_t *ad; *new_ad = NULL; if ((default_domain == NULL || *default_domain == '\0') && part != IDMAP_AD_GLOBAL_CATALOG) return (-1); if ((ad = calloc(1, sizeof (ad_t))) == NULL) return (-1); ad->ref = 1; ad->partition = part; /* * If default_domain is NULL, deal, deferring errors until * idmap_lookup_batch_start() -- this makes it easier on the * caller, who can simply observe lookups failing as opposed to * having to conditionalize calls to lookups according to * whether it has a non-NULL ad_t *. */ if (default_domain == NULL) default_domain = ""; if ((ad->dflt_w2k_dom = strdup(default_domain)) == NULL) goto err; /* If default_domain is empty, deal; see above */ if (*default_domain == '\0') { if ((ad->basedn = strdup("")) == NULL) goto err; } else if ((ad->basedn = dns2dn(default_domain)) == NULL) { goto err; } if (pthread_mutex_init(&ad->lock, NULL) != 0) goto err; *new_ad = ad; return (0); err: if (ad->dflt_w2k_dom != NULL) free(ad->dflt_w2k_dom); if (ad->basedn != NULL) free(ad->basedn); free(ad); return (-1); } void idmap_ad_free(ad_t **ad) { ad_host_t *p; if (ad == NULL || *ad == NULL) return; (void) pthread_mutex_lock(&(*ad)->lock); if (atomic_dec_32_nv(&(*ad)->ref) > 0) { (void) pthread_mutex_unlock(&(*ad)->lock); *ad = NULL; return; } for (p = host_head; p != NULL; p = p->next) { if (p->owner != (*ad)) continue; idmap_delete_ds((*ad), p->host, p->port); } free((*ad)->basedn); (void) pthread_mutex_unlock(&(*ad)->lock); (void) pthread_mutex_destroy(&(*ad)->lock); free(*ad); *ad = NULL; } static int idmap_open_conn(ad_host_t *adh) { int rc, ldversion; if (adh->dead && adh->ld != NULL) { (void) ldap_unbind(adh->ld); adh->ld = NULL; adh->dead = 0; } if (adh->ld == NULL) { int zero = 0; int timeoutms = 30 * 1000; atomic_inc_64(&adh->generation); adh->ld = ldap_init(adh->host, adh->port); if (adh->ld == NULL) return (-1); ldversion = LDAP_VERSION3; (void) ldap_set_option(adh->ld, LDAP_OPT_PROTOCOL_VERSION, &ldversion); (void) ldap_set_option(adh->ld, LDAP_OPT_REFERRALS, LDAP_OPT_OFF); (void) ldap_set_option(adh->ld, LDAP_OPT_TIMELIMIT, &zero); (void) ldap_set_option(adh->ld, LDAP_OPT_SIZELIMIT, &zero); /* setup TCP/IP connect timeout */ (void) ldap_set_option(adh->ld, LDAP_X_OPT_CONNECT_TIMEOUT, &timeoutms); (void) ldap_set_option(adh->ld, LDAP_OPT_RESTART, LDAP_OPT_ON); rc = ldap_sasl_interactive_bind_s(adh->ld, "" /* binddn */, adh->saslmech, NULL, NULL, adh->saslflags, &idmap_saslcallback, NULL /* defaults */); if (rc != LDAP_SUCCESS) { idmapdlog(LOG_ERR, "Could not authenticate to the " "LDAP server. (Check that the host keys are " "correct?)"); return (rc); } } adh->idletime = time(NULL); return (LDAP_SUCCESS); } /* * Connection management: find an open connection or open one */ static ad_host_t * idmap_get_conn(const ad_t *ad) { ad_host_t *adh = NULL; int rc; (void) pthread_mutex_lock(&adhostlock); /* * Search for any ad_host_t, preferably one with an open * connection */ for (adh = host_head; adh != NULL; adh = adh->next) { if (adh->owner == ad) { break; } } if (adh != NULL) atomic_inc_32(&adh->ref); (void) pthread_mutex_unlock(&adhostlock); if (adh == NULL) return (NULL); /* found connection, open it if not opened */ (void) pthread_mutex_lock(&adh->lock); rc = idmap_open_conn(adh); (void) pthread_mutex_unlock(&adh->lock); if (rc != LDAP_SUCCESS) return (NULL); return (adh); } static void idmap_release_conn(ad_host_t *adh) { (void) pthread_mutex_lock(&adh->lock); if (atomic_dec_32_nv(&adh->ref) == 0) adh->idletime = time(NULL); (void) pthread_mutex_unlock(&adh->lock); } /* * Take ad_host_config_t information, create a ad_host_t, * populate it and add it to the list of hosts. */ int idmap_add_ds(ad_t *ad, const char *host, int port) { ad_host_t *p; ad_host_t *new = NULL; int ret = -1; if (port == 0) port = (int)ad->partition; (void) pthread_mutex_lock(&adhostlock); for (p = host_head; p != NULL; p = p->next) { if (p->owner != ad) continue; if (strcmp(host, p->host) == 0 && p->port == port) { /* already added */ ret = -2; goto err; } } /* add new entry */ new = (ad_host_t *)calloc(1, sizeof (ad_host_t)); if (new == NULL) goto err; new->owner = ad; new->port = port; new->dead = 0; if ((new->host = strdup(host)) == NULL) goto err; /* default to SASL GSSAPI only for now */ new->saslflags = LDAP_SASL_INTERACTIVE; new->saslmech = "GSSAPI"; if ((ret = pthread_mutex_init(&new->lock, NULL)) != 0) { free(new->host); new->host = NULL; errno = ret; ret = -1; goto err; } /* link in */ new->next = host_head; host_head = new; /* Start reaper if it doesn't exist */ if (reaperid == 0) (void) pthread_create(&reaperid, NULL, (void *(*)(void *))adreaper, (void *)NULL); err: (void) pthread_mutex_unlock(&adhostlock); if (ret != 0 && new != NULL) { if (new->host != NULL) { (void) pthread_mutex_destroy(&new->lock); free(new->host); } free(new); } return (ret); } /* * free a DS configuration */ void idmap_delete_ds(ad_t *ad, const char *host, int port) { ad_host_t **p, *q; (void) pthread_mutex_lock(&adhostlock); for (p = &host_head; *p != NULL; p = &((*p)->next)) { if ((*p)->owner != ad || strcmp(host, (*p)->host) != 0 || (*p)->port != port) continue; /* found */ if (atomic_dec_32_nv(&((*p)->ref)) > 0) break; /* still in use */ q = *p; *p = (*p)->next; (void) pthread_mutex_destroy(&q->lock); if (q->ld) (void) ldap_unbind(q->ld); if (q->host) free(q->host); free(q); break; } (void) pthread_mutex_unlock(&adhostlock); } /* * Convert a binary SID in a BerValue to a sid_t */ static int idmap_getsid(BerValue *bval, sid_t *sidp) { int i, j; uchar_t *v; uint32_t a; /* * The binary format of a SID is as follows: * * byte #0: version, always 0x01 * byte #1: RID count, always <= 0x0f * bytes #2-#7: SID authority, big-endian 48-bit unsigned int * * followed by RID count RIDs, each a little-endian, unsigned * 32-bit int. */ /* * Sanity checks: must have at least one RID, version must be * 0x01, and the length must be 8 + rid count * 4 */ if (bval->bv_len > 8 && bval->bv_val[0] == 0x01 && bval->bv_len == 1 + 1 + 6 + bval->bv_val[1] * 4) { v = (uchar_t *)bval->bv_val; sidp->version = v[0]; sidp->sub_authority_count = v[1]; sidp->authority = /* big endian -- so start from the left */ ((u_longlong_t)v[2] << 40) | ((u_longlong_t)v[3] << 32) | ((u_longlong_t)v[4] << 24) | ((u_longlong_t)v[5] << 16) | ((u_longlong_t)v[6] << 8) | (u_longlong_t)v[7]; for (i = 0; i < sidp->sub_authority_count; i++) { j = 8 + (i * 4); /* little endian -- so start from the right */ a = (v[j + 3] << 24) | (v[j + 2] << 16) | (v[j + 1] << 8) | (v[j]); sidp->sub_authorities[i] = a; } return (0); } return (-1); } /* * Convert a sid_t to S-1-... */ static char * idmap_sid2txt(sid_t *sidp) { int rlen, i, len; char *str, *cp; if (sidp->version != 1) return (NULL); len = sizeof ("S-1-") - 1; /* * We could optimize like so, but, why? * if (sidp->authority < 10) * len += 2; * else if (sidp->authority < 100) * len += 3; * else * len += snprintf(NULL, 0"%llu", sidp->authority); */ len += snprintf(NULL, 0, "%llu", sidp->authority); /* Max length of a uint32_t printed out in ASCII is 10 bytes */ len += 1 + (sidp->sub_authority_count + 1) * 10; if ((cp = str = malloc(len)) == NULL) return (NULL); rlen = snprintf(str, len, "S-1-%llu", sidp->authority); cp += rlen; len -= rlen; for (i = 0; i < sidp->sub_authority_count; i++) { assert(len > 0); rlen = snprintf(cp, len, "-%u", sidp->sub_authorities[i]); cp += rlen; len -= rlen; assert(len >= 0); } return (str); } /* * Convert a sid_t to on-the-wire encoding */ static int idmap_sid2binsid(sid_t *sid, uchar_t *binsid, int binsidlen) { uchar_t *p; int i; uint64_t a; uint32_t r; if (sid->version != 1 || binsidlen != (1 + 1 + 6 + sid->sub_authority_count * 4)) return (-1); p = binsid; *p++ = 0x01; /* version */ /* sub authority count */ *p++ = sid->sub_authority_count; /* Authority */ a = sid->authority; /* big-endian -- start from left */ *p++ = (a >> 40) & 0xFF; *p++ = (a >> 32) & 0xFF; *p++ = (a >> 24) & 0xFF; *p++ = (a >> 16) & 0xFF; *p++ = (a >> 8) & 0xFF; *p++ = a & 0xFF; /* sub-authorities */ for (i = 0; i < sid->sub_authority_count; i++) { r = sid->sub_authorities[i]; /* little-endian -- start from right */ *p++ = (r & 0x000000FF); *p++ = (r & 0x0000FF00) >> 8; *p++ = (r & 0x00FF0000) >> 16; *p++ = (r & 0xFF000000) >> 24; } return (0); } /* * Convert a stringified SID (S-1-...) into a hex-encoded version of the * on-the-wire encoding, but with each pair of hex digits pre-pended * with a '\', so we can pass this to libldap. */ static int idmap_txtsid2hexbinsid(const char *txt, const rid_t *rid, char *hexbinsid, int hexbinsidlen) { sid_t sid = { 0 }; int i, j; const char *cp; char *ecp; u_longlong_t a; unsigned long r; uchar_t *binsid, b, hb; /* Only version 1 SIDs please */ if (strncmp(txt, "S-1-", strlen("S-1-")) != 0) return (-1); if (strlen(txt) < (strlen("S-1-") + 1)) return (-1); /* count '-'s */ for (j = 0, cp = strchr(txt, '-'); cp != NULL && *cp != '\0'; j++, cp = strchr(cp + 1, '-')) { /* can't end on a '-' */ if (*(cp + 1) == '\0') return (-1); } /* must have at least one RID, but not too many */ if (j < 3 || (j - 1) > SID_MAX_SUB_AUTHORITIES || (rid != NULL && j > SID_MAX_SUB_AUTHORITIES)) return (-1); /* check that we only have digits and '-' */ if (strspn(txt + 1, "0123456789-") < (strlen(txt) - 1)) return (-1); /* we know the version number and RID count */ sid.version = 1; sid.sub_authority_count = j - 2; cp = txt + strlen("S-1-"); /* 64-bit safe parsing of unsigned 48-bit authority value */ errno = 0; a = strtoull(cp, &ecp, 10); /* errors parsing the authority or too many bits */ if (cp == ecp || (a == 0 && errno == EINVAL) || (a == ULLONG_MAX && errno == ERANGE) || (a & 0x0000ffffffffffffULL) != a) return (-1); cp = ecp; sid.authority = (uint64_t)a; for (i = 0; i < sid.sub_authority_count; i++) { if (*cp++ != '-') return (-1); /* 64-bit safe parsing of unsigned 32-bit RID */ errno = 0; r = strtoul(cp, &ecp, 10); /* errors parsing the RID or too many bits */ if (cp == ecp || (r == 0 && errno == EINVAL) || (r == ULONG_MAX && errno == ERANGE) || (r & 0xffffffffUL) != r) return (-1); sid.sub_authorities[i] = (uint32_t)r; cp = ecp; } /* check that all of the string SID has been consumed */ if (*cp != '\0') return (-1); if (rid != NULL) { sid.sub_authorities[sid.sub_authority_count++] = *rid; } j = 1 + 1 + 6 + sid.sub_authority_count * 4; if (hexbinsidlen < (j * 3)) return (-2); /* binary encode the SID */ binsid = (uchar_t *)alloca(j); (void) idmap_sid2binsid(&sid, binsid, j); /* hex encode, with a backslash before each byte */ for (ecp = hexbinsid, i = 0; i < j; i++) { b = binsid[i]; *ecp++ = '\\'; hb = (b >> 4) & 0xF; *ecp++ = (hb <= 0x9 ? hb + '0' : hb - 10 + 'A'); hb = b & 0xF; *ecp++ = (hb <= 0x9 ? hb + '0' : hb - 10 + 'A'); } *ecp = '\0'; return (0); } static char * convert_bval2sid(BerValue *bval, rid_t *rid) { sid_t sid; if (idmap_getsid(bval, &sid) < 0) return (NULL); /* * If desired and if the SID is what should be a domain/computer * user or group SID (i.e., S-1-5-w-x-y-z-) then * save the last RID and truncate the SID */ if (rid != NULL && sid.authority == 5 && sid.sub_authority_count == 5) *rid = sid.sub_authorities[--sid.sub_authority_count]; return (idmap_sid2txt(&sid)); } idmap_retcode idmap_lookup_batch_start(ad_t *ad, int nqueries, idmap_query_state_t **state) { idmap_query_state_t *new_state; ad_host_t *adh = NULL; *state = NULL; if (*ad->dflt_w2k_dom == '\0') return (-1); adh = idmap_get_conn(ad); if (adh == NULL) return (IDMAP_ERR_OTHER); new_state = calloc(1, sizeof (idmap_query_state_t) + (nqueries - 1) * sizeof (idmap_q_t)); if (new_state == NULL) return (IDMAP_ERR_MEMORY); new_state->qadh = adh; new_state->qcount = nqueries; new_state->qadh_gen = adh->generation; /* should be -1, but the atomic routines want unsigned */ new_state->qlastsent = 0; (void) pthread_mutex_lock(&qstatelock); new_state->next = qstatehead; qstatehead = new_state; (void) pthread_mutex_unlock(&qstatelock); *state = new_state; return (IDMAP_SUCCESS); } /* * Find the idmap_query_state_t to which a given LDAP result msgid on a * given connection belongs */ static int idmap_msgid2query(ad_host_t *adh, int msgid, idmap_query_state_t **state, int *qid) { idmap_query_state_t *p; int i; (void) pthread_mutex_lock(&qstatelock); for (p = qstatehead; p != NULL; p = p->next) { if (p->qadh != adh || adh->generation != p->qadh_gen) continue; for (i = 0; i < p->qcount; i++) { if ((p->queries[i]).msgid == msgid) { *state = p; *qid = i; (void) pthread_mutex_unlock(&qstatelock); return (1); } } } (void) pthread_mutex_unlock(&qstatelock); return (0); } /* * Handle an objectSid attr from a result */ static void idmap_bv_objsid2sidstr(BerValue **bvalues, idmap_q_t *q) { if (bvalues == NULL) return; /* objectSid is single valued */ *(q->result) = convert_bval2sid(bvalues[0], q->rid); q->got_objectSid = 1; } /* * Handle a sAMAccountName attr from a result */ static void idmap_bv_samaccountname2name(BerValue **bvalues, idmap_q_t *q, const char *dn) { char *result, *domain; int len; if (bvalues == NULL) return; if ((domain = dn2dns(dn)) == NULL) return; if (bvalues == NULL || bvalues[0] == NULL || bvalues[0]->bv_val == NULL) return; len = bvalues[0]->bv_len + 1; if (q->domain != NULL) *(q->domain) = domain; else len += strlen(domain) + 1; if ((result = malloc(len)) == NULL) { if (q->domain != NULL) *(q->domain) = NULL; free(domain); return; } (void) memcpy(result, bvalues[0]->bv_val, (size_t)bvalues[0]->bv_len); result[bvalues[0]->bv_len] = '\0'; if (q->domain == NULL) { (void) strlcat(result, "@", len); (void) strlcat(result, domain, len); free(domain); } *(q->result) = result; q->got_samAcctName = 1; } #define BVAL_CASEEQ(bv, str) \ (((*(bv))->bv_len == (sizeof (str) - 1)) && \ strncasecmp((*(bv))->bv_val, str, (*(bv))->bv_len) == 0) /* * Handle an objectClass attr from a result */ static void idmap_bv_objclass2sidtype(BerValue **bvalues, idmap_q_t *q) { BerValue **cbval; if (bvalues == NULL) return; for (cbval = bvalues; *cbval != NULL; cbval++) { /* don't clobber sid_type */ if (*(q->sid_type) == _IDMAP_T_COMPUTER || *(q->sid_type) == _IDMAP_T_GROUP || *(q->sid_type) == _IDMAP_T_USER) continue; if (BVAL_CASEEQ(cbval, "Computer")) { *(q->sid_type) = _IDMAP_T_COMPUTER; return; } else if (BVAL_CASEEQ(cbval, "Group")) { *(q->sid_type) = _IDMAP_T_GROUP; } else if (BVAL_CASEEQ(cbval, "USER")) { *(q->sid_type) = _IDMAP_T_USER; } else *(q->sid_type) = _IDMAP_T_OTHER; q->got_objectClass = 1; } } /* * Handle a given search result entry */ static void idmap_extract_object(idmap_query_state_t *state, int qid, LDAPMessage *res) { char *dn, *attr; BerElement *ber = NULL; BerValue **bvalues; ad_host_t *adh; idmap_q_t *q; idmap_retcode orc; adh = state->qadh; (void) pthread_mutex_lock(&adh->lock); if (adh->dead || (dn = ldap_get_dn(adh->ld, res)) == NULL) { (void) pthread_mutex_unlock(&adh->lock); return; } q = &(state->queries[qid]); for (attr = ldap_first_attribute(adh->ld, res, &ber); attr != NULL; attr = ldap_next_attribute(adh->ld, res, ber)) { orc = *q->rc; bvalues = NULL; /* for memory management below */ /* * If this is an attribute we are looking for and * haven't seen it yet, parse it */ if (orc != IDMAP_SUCCESS && q->n2s && !q->got_objectSid && strcasecmp(attr, OBJECTSID) == 0) { bvalues = ldap_get_values_len(adh->ld, res, attr); idmap_bv_objsid2sidstr(bvalues, q); } else if (orc != IDMAP_SUCCESS && !q->n2s && !q->got_samAcctName && strcasecmp(attr, SAMACCOUNTNAME) == 0) { bvalues = ldap_get_values_len(adh->ld, res, attr); idmap_bv_samaccountname2name(bvalues, q, dn); } else if (orc != IDMAP_SUCCESS && !q->got_objectClass && strcasecmp(attr, OBJECTCLASS) == 0) { bvalues = ldap_get_values_len(adh->ld, res, attr); idmap_bv_objclass2sidtype(bvalues, q); } if (bvalues != NULL) ldap_value_free_len(bvalues); ldap_memfree(attr); if (q->n2s) *q->rc = (q->got_objectSid && q->got_objectClass) ? IDMAP_SUCCESS : IDMAP_ERR_NORESULT; else *q->rc = (q->got_samAcctName && q->got_objectClass) ? IDMAP_SUCCESS : IDMAP_ERR_NORESULT; if (*q->rc == IDMAP_SUCCESS && *q->result == NULL) *q->rc = IDMAP_ERR_NORESULT; } (void) pthread_mutex_unlock(&adh->lock); /* * If there should be multiple partial results for different * entities (there should not be, but, if it should happen) then * it's possible that they could get mixed up here and we could * get bogus results. We just mark the query's results as * toxic (IDMAP_ERR_INTERNAL). * * Between this and ignoring results when we've already filled * out a query's results we should be OK. The first full reply * wins. In practice we should never get multiple results. */ if (orc == IDMAP_ERR_INTERNAL) *q->rc = IDMAP_ERR_INTERNAL; else if (*q->rc != IDMAP_SUCCESS) *q->rc = IDMAP_ERR_INTERNAL; if (ber != NULL) ber_free(ber, 0); ldap_memfree(dn); } /* * Try to get a result; if there is one, find the corresponding * idmap_q_t and process the result. */ static int idmap_get_adobject_batch(ad_host_t *adh, struct timeval *timeout) { idmap_query_state_t *query_state; LDAPMessage *res = NULL; int rc, ret, msgid, qid; (void) pthread_mutex_lock(&adh->lock); if (adh->dead) { (void) pthread_mutex_unlock(&adh->lock); return (-1); } /* Get one result */ rc = ldap_result(adh->ld, LDAP_RES_ANY, 0, timeout, &res); if (rc == LDAP_UNAVAILABLE || rc == LDAP_UNWILLING_TO_PERFORM || rc == LDAP_CONNECT_ERROR || rc == LDAP_SERVER_DOWN || rc == LDAP_BUSY) adh->dead = 1; (void) pthread_mutex_unlock(&adh->lock); if (adh->dead) return (-1); switch (rc) { case LDAP_RES_SEARCH_RESULT: /* We have all the LDAP replies for some search... */ msgid = ldap_msgid(res); if (idmap_msgid2query(adh, msgid, &query_state, &qid)) { /* ...so we can decrement qinflight */ atomic_dec_32(&query_state->qinflight); /* we saw at least one reply */ query_state->queries[qid].got_reply = 1; } (void) ldap_msgfree(res); ret = 0; break; case LDAP_RES_SEARCH_REFERENCE: /* * We have no need for these at the moment. Eventually, * when we query things that we can't expect to find in * the Global Catalog then we'll need to learn to follow * references. */ (void) ldap_msgfree(res); ret = 0; break; case LDAP_RES_SEARCH_ENTRY: /* Got a result */ msgid = ldap_msgid(res); if (idmap_msgid2query(adh, msgid, &query_state, &qid)) { idmap_extract_object(query_state, qid, res); /* we saw at least one result */ query_state->queries[qid].got_reply = 1; query_state->queries[qid].got_results = 1; } (void) ldap_msgfree(res); ret = 0; break; default: /* timeout or error; treat the same */ ret = -1; break; } return (ret); } void idmap_lookup_free_batch(idmap_query_state_t **state) { idmap_query_state_t **p; idmap_release_conn((*state)->qadh); /* Remove this state struct from the list of state structs */ (void) pthread_mutex_lock(&qstatelock); for (p = &qstatehead; *p != NULL; p = &(*p)->next) { if (*p == (*state)) { *p = (*state)->next; break; } } (void) pthread_mutex_unlock(&qstatelock); free(*state); *state = NULL; } idmap_retcode idmap_lookup_batch_end(idmap_query_state_t **state, struct timeval *timeout) { idmap_q_t *q; int i; int rc = LDAP_SUCCESS; idmap_retcode retcode = IDMAP_SUCCESS; (*state)->qdead = 1; /* Process results until done or until timeout, if given */ while ((*state)->qinflight > 0) { if ((rc = idmap_get_adobject_batch((*state)->qadh, timeout)) != 0) break; } if (rc == LDAP_UNAVAILABLE || rc == LDAP_UNWILLING_TO_PERFORM || rc == LDAP_CONNECT_ERROR || rc == LDAP_SERVER_DOWN || rc == LDAP_BUSY) { retcode = IDMAP_ERR_RETRIABLE_NET_ERR; (*state)->qadh->dead = 1; } for (i = 0; i < (*state)->qcount; i++) { q = &((*state)->queries[i]); if (q->got_reply && !q->got_results) { if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR) *q->rc = IDMAP_ERR_RETRIABLE_NET_ERR; else *q->rc = IDMAP_ERR_NOTFOUND; } } idmap_lookup_free_batch(state); return (retcode); } /* * Send one prepared search, queue up msgid, process what results are * available */ static idmap_retcode idmap_batch_add1(idmap_query_state_t *state, int n2s, const char *filter, const char *basedn, char **result, char **dname, rid_t *rid, int *sid_type, idmap_retcode *rc) { idmap_retcode retcode = IDMAP_SUCCESS; int lrc, qid; struct timeval tv; idmap_q_t *q; if (state->qdead) { *rc = IDMAP_ERR_NORESULT; return (IDMAP_ERR_RETRIABLE_NET_ERR); } qid = atomic_inc_32_nv(&state->qlastsent) - 1; q = &(state->queries[qid]); /* Remember where to put the results */ q->result = result; q->domain = dname; q->rid = rid; q->sid_type = sid_type; q->rc = rc; q->n2s = n2s ? 1 : 0; q->got_objectSid = 0; q->got_objectClass = 0; q->got_samAcctName = 0; /* * Provide sane defaults for the results in case we never hear * back from the DS before closing the connection. */ *rc = IDMAP_ERR_RETRIABLE_NET_ERR; *sid_type = _IDMAP_T_OTHER; *result = NULL; if (dname != NULL) *dname = NULL; if (rid != NULL) *rid = 0; /* Send this lookup, don't wait for a result here */ (void) pthread_mutex_lock(&state->qadh->lock); if (!state->qadh->dead) { state->qadh->idletime = time(NULL); lrc = ldap_search_ext(state->qadh->ld, basedn, LDAP_SCOPE_SUBTREE, filter, NULL, 0, NULL, NULL, NULL, -1, &q->msgid); if (lrc == LDAP_BUSY || lrc == LDAP_UNAVAILABLE || lrc == LDAP_CONNECT_ERROR || lrc == LDAP_SERVER_DOWN || lrc == LDAP_UNWILLING_TO_PERFORM) { retcode = IDMAP_ERR_RETRIABLE_NET_ERR; state->qadh->dead = 1; } else if (lrc != LDAP_SUCCESS) { retcode = IDMAP_ERR_OTHER; state->qadh->dead = 1; } } (void) pthread_mutex_unlock(&state->qadh->lock); if (state->qadh->dead) return (retcode); atomic_inc_32(&state->qinflight); /* * Reap as many requests as we can _without_ waiting * * We do this to prevent any possible TCP socket buffer * starvation deadlocks. */ (void) memset(&tv, 0, sizeof (tv)); while (idmap_get_adobject_batch(state->qadh, &tv) == 0) ; return (IDMAP_SUCCESS); } idmap_retcode idmap_name2sid_batch_add1(idmap_query_state_t *state, const char *name, const char *dname, char **sid, rid_t *rid, int *sid_type, idmap_retcode *rc) { idmap_retcode retcode; int flen, samAcctNameLen; char *filter = NULL; char *basedn = NULL; char *cp; /* * Strategy: search [the global catalog] for user/group by * sAMAccountName = user/groupname with base DN derived from the * domain name. The objectSid and objectClass of the result are * all we need to figure out the SID of the user/group and * whether it is a user or a group. */ /* * Handle optional domain parameter and default domain * semantics. The get a basedn from the domainname. */ if (dname == NULL || *dname != '\0') { /* domain name not given separately */ if ((cp = strchr(name, '@')) == NULL) { /* nor is the name qualified */ dname = state->qadh->owner->dflt_w2k_dom; basedn = state->qadh->owner->basedn; samAcctNameLen = strlen(name); } else { /* the name is qualified */ /* LINTED */ samAcctNameLen = cp - name; dname = cp + 1; } } if (basedn == NULL) basedn = dns2dn(dname); /* Assemble filter */ flen = snprintf(NULL, 0, SANFILTER, samAcctNameLen, name) + 1; if ((filter = (char *)malloc(flen)) == NULL) { if (basedn != state->qadh->owner->basedn) free(basedn); return (IDMAP_ERR_MEMORY); } (void) snprintf(filter, flen, SANFILTER, samAcctNameLen, name); retcode = idmap_batch_add1(state, 1, filter, basedn, sid, NULL, rid, sid_type, rc); if (basedn != state->qadh->owner->basedn) free(basedn); free(filter); return (retcode); } idmap_retcode idmap_sid2name_batch_add1(idmap_query_state_t *state, const char *sid, const rid_t *rid, char **name, char **dname, int *sid_type, idmap_retcode *rc) { idmap_retcode retcode; int flen, ret; char *filter = NULL; char cbinsid[MAXHEXBINSID + 1]; /* * Strategy: search [the global catalog] for user/group by * objectSid = SID with empty base DN. The DN, sAMAccountName * and objectClass of the result are all we need to figure out * the name of the SID and whether it is a user, a group or a * computer. */ ret = idmap_txtsid2hexbinsid(sid, rid, &cbinsid[0], sizeof (cbinsid)); if (ret != 0) return (IDMAP_ERR_SID); /* Assemble filter */ flen = snprintf(NULL, 0, OBJECTSIDFILTER, cbinsid) + 1; if ((filter = (char *)malloc(flen)) == NULL) return (IDMAP_ERR_MEMORY); (void) snprintf(filter, flen, OBJECTSIDFILTER, cbinsid); retcode = idmap_batch_add1(state, 0, filter, NULL, name, dname, NULL, sid_type, rc); free(filter); return (retcode); }