/* * 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 (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. */ #ifndef _IDMAPD_H #define _IDMAPD_H #include #include #include #include #include #include #include #include #include #include #include #include #include "adutils.h" #include "idmap_priv.h" #include "idmap_config.h" #include "libadutils.h" #ifdef __cplusplus extern "C" { #endif #define CHECK_NULL(s) (s != NULL ? s : "null") extern mutex_t _svcstate_lock; /* lock for _rpcsvcstate, _rpcsvccount */ typedef enum idmap_namemap_mode { IDMAP_NM_NONE = 0, IDMAP_NM_AD, IDMAP_NM_NLDAP, IDMAP_NM_MIXED } idmap_namemap_mode_t; /* * Debugging output. * * There are some number of areas - configuration, mapping, discovery, et * cetera - and for each area there is a verbosity level controlled through * an SMF property. The default is zero, and "debug/all" provides a master * control allowing you to turn on all debugging output with one setting. * * A typical debugging output sequence would look like * * if (DBG(CONFIG, 2)) { * idmapdlog(LOG_DEBUG, * "some message about config at verbosity 2"); * } */ enum idmapd_debug { IDMAPD_DEBUG_ALL = 0, IDMAPD_DEBUG_CONFIG = 1, IDMAPD_DEBUG_MAPPING = 2, IDMAPD_DEBUG_DISC = 3, IDMAPD_DEBUG_DNS = 4, IDMAPD_DEBUG_LDAP = 5, IDMAPD_DEBUG_MAX = 5 }; #define DBG(type, lev) \ (_idmapdstate.debug[IDMAPD_DEBUG_##type] >= (lev) || \ _idmapdstate.debug[IDMAPD_DEBUG_ALL] >= (lev)) /* * Global state of idmapd daemon. */ typedef struct idmapd_state { rwlock_t rwlk_cfg; /* config lock */ idmap_cfg_t *cfg; /* config */ bool_t daemon_mode; char hostname[MAX_NAME_LEN]; /* my hostname */ uid_t next_uid; gid_t next_gid; uid_t limit_uid; gid_t limit_gid; int new_eph_db; /* was the ephem ID db [re-]created? */ int num_gcs; adutils_ad_t **gcs; int num_dcs; adutils_ad_t **dcs; int debug[IDMAPD_DEBUG_MAX+1]; } idmapd_state_t; extern idmapd_state_t _idmapdstate; #define RDLOCK_CONFIG() \ (void) rw_rdlock(&_idmapdstate.rwlk_cfg); #define WRLOCK_CONFIG() \ (void) rw_wrlock(&_idmapdstate.rwlk_cfg); #define UNLOCK_CONFIG() \ (void) rw_unlock(&_idmapdstate.rwlk_cfg); typedef struct hashentry { uint_t key; uint_t next; } hashentry_t; typedef struct lookup_state { bool_t sid2pid_done; bool_t pid2sid_done; int ad_nqueries; int nldap_nqueries; bool_t eph_map_unres_sids; int directory_based_mapping; /* enum */ uint_t curpos; hashentry_t *sid_history; uint_t sid_history_size; idmap_mapping_batch *batch; idmap_ids_res *result; idmap_namemap_mode_t nm_siduid; idmap_namemap_mode_t nm_sidgid; char *ad_unixuser_attr; char *ad_unixgroup_attr; char *nldap_winname_attr; char *defdom; sqlite *cache; sqlite *db; } lookup_state_t; #define NLDAP_OR_MIXED(nm) \ ((nm) == IDMAP_NM_NLDAP || (nm) == IDMAP_NM_MIXED) #define AD_OR_MIXED(nm) \ ((nm) == IDMAP_NM_AD || (nm) == IDMAP_NM_MIXED) #define PID_UID_OR_UNKNOWN(pidtype) \ ((pidtype) == IDMAP_UID || (pidtype) == IDMAP_POSIXID) #define PID_GID_OR_UNKNOWN(pidtype) \ ((pidtype) == IDMAP_GID || (pidtype) == IDMAP_POSIXID) #define NLDAP_OR_MIXED_MODE(pidtype, ls) \ (NLDAP_MODE(pidtype, ls) || MIXED_MODE(pidtype, ls)) #define AD_OR_MIXED_MODE(pidtype, ls)\ (AD_MODE(pidtype, ls) || MIXED_MODE(pidtype, ls)) #define NLDAP_MODE(pidtype, ls) \ ((PID_UID_OR_UNKNOWN(pidtype) && (ls)->nm_siduid == IDMAP_NM_NLDAP) || \ (PID_GID_OR_UNKNOWN(pidtype) && (ls)->nm_sidgid == IDMAP_NM_NLDAP)) #define AD_MODE(pidtype, ls) \ ((PID_UID_OR_UNKNOWN(pidtype) && (ls)->nm_siduid == IDMAP_NM_AD) || \ (PID_GID_OR_UNKNOWN(pidtype) && (ls)->nm_sidgid == IDMAP_NM_AD)) #define MIXED_MODE(pidtype, ls) \ ((PID_UID_OR_UNKNOWN(pidtype) && (ls)->nm_siduid == IDMAP_NM_MIXED) || \ (PID_GID_OR_UNKNOWN(pidtype) && (ls)->nm_sidgid == IDMAP_NM_MIXED)) typedef struct list_cb_data { void *result; uint64_t next; uint64_t len; uint64_t limit; int flag; } list_cb_data_t; typedef struct msg_table { idmap_retcode retcode; const char *msg; } msg_table_t; /* * Data structure to store well-known SIDs and * associated mappings (if any) */ typedef struct wksids_table { const char *sidprefix; uint32_t rid; const char *domain; const char *winname; int is_wuser; posix_id_t pid; int is_user; int direction; } wksids_table_t; #define IDMAPD_SEARCH_TIMEOUT 3 /* seconds */ #define IDMAPD_LDAP_OPEN_TIMEOUT 1 /* secs; initial, w/ exp backoff */ /* * The following flags are used by idmapd while processing a * given mapping request. Note that idmapd uses multiple passes to * process the request and the flags are used to pass information * about the state of the request between these passes. */ /* Initial state. Done. Reset all flags. Remaining passes can be skipped */ #define _IDMAP_F_DONE 0x00000000 /* Set when subsequent passes are required */ #define _IDMAP_F_NOTDONE 0x00000001 /* Don't update name_cache. (e.g. set when winname,SID found in name_cache) */ #define _IDMAP_F_DONT_UPDATE_NAMECACHE 0x00000002 /* Batch this request for AD lookup */ #define _IDMAP_F_LOOKUP_AD 0x00000004 /* Batch this request for nldap directory lookup */ #define _IDMAP_F_LOOKUP_NLDAP 0x00000008 /* * Expired ephemeral mapping found in cache when processing sid2uid request. * Use it if the given SID cannot be mapped by name */ #define _IDMAP_F_EXP_EPH_UID 0x00000010 /* Same as above. Used for sid2gid request */ #define _IDMAP_F_EXP_EPH_GID 0x00000020 /* This request is not valid for the current forest */ #define _IDMAP_F_LOOKUP_OTHER_AD 0x00000040 /* * Check if we are done. If so, subsequent passes can be skipped * when processing a given mapping request. */ #define ARE_WE_DONE(f) ((f & _IDMAP_F_NOTDONE) == 0) #define SIZE_INCR 5 #define MAX_TRIES 5 #define IDMAP_DBDIR "/var/idmap" #define IDMAP_CACHEDIR "/var/run/idmap" #define IDMAP_DBNAME IDMAP_DBDIR "/idmap.db" #define IDMAP_CACHENAME IDMAP_CACHEDIR "/idmap.db" #define IS_ID_NONE(id) \ ((id).idtype == IDMAP_NONE) #define IS_ID_SID(id) \ ((id).idtype == IDMAP_SID || \ (id).idtype == IDMAP_USID || \ (id).idtype == IDMAP_GSID) \ #define IS_ID_UID(id) \ ((id).idtype == IDMAP_UID) #define IS_ID_GID(id) \ ((id).idtype == IDMAP_GID) #define IS_ID_POSIX(id) \ ((id).idtype == IDMAP_UID || \ (id).idtype == IDMAP_GID || \ (id).idtype == IDMAP_POSIXID) \ /* * Local RID ranges */ #define LOCALRID_UID_MIN 1000U #define LOCALRID_UID_MAX ((uint32_t)INT32_MAX) #define LOCALRID_GID_MIN (((uint32_t)INT32_MAX) + 1) #define LOCALRID_GID_MAX UINT32_MAX /* * Tracing. * * The tracing mechanism is intended to help the administrator understand * why their mapping configuration is doing what it is. Each interesting * decision point during the mapping process calls TRACE() with the current * request and response and a printf-style message. The message, plus * data from the request and the response, is logged to the service log * (if debug/mapping is greater than zero) or reported to the caller * (if IDMAP_REQ_FLG_TRACE was set in the request. The primary consumer * is the "-V" option to "idmap show". * * TRACING(req) says whether tracing is appropriate for the request, and * is used to determine and record whether any request in a batch requested * tracing, to control whether later code loops over the batch to do tracing * for any of the requests. * * TRACE(req, res, fmt, ...) generates a trace entry if appropriate. */ #define TRACING(req) \ (DBG(MAPPING, 1) || \ ((req)->flag & IDMAP_REQ_FLG_TRACE) != 0) #define TRACE(req, res, ...) \ ((void)(TRACING(req) && trace(req, res, __VA_ARGS__))) extern int trace(idmap_mapping *req, idmap_id_res *res, char *fmt, ...); typedef idmap_retcode (*update_list_res_cb)(void *, const char **, uint64_t); typedef int (*list_svc_cb)(void *, int, char **, char **); extern void idmap_prog_1(struct svc_req *, register SVCXPRT *); extern void idmapdlog(int, const char *, ...); extern int init_mapping_system(); extern void fini_mapping_system(); extern void print_idmapdstate(); extern int create_directory(const char *, uid_t, gid_t); extern int load_config(); extern void reload_ad(); extern void idmap_init_tsd_key(void); extern void degrade_svc(int, const char *); extern void restore_svc(void); extern int init_dbs(); extern void fini_dbs(); extern idmap_retcode get_db_handle(sqlite **); extern idmap_retcode get_cache_handle(sqlite **); extern idmap_retcode sql_exec_no_cb(sqlite *, const char *, char *); extern idmap_retcode add_namerule(sqlite *, idmap_namerule *); extern idmap_retcode rm_namerule(sqlite *, idmap_namerule *); extern idmap_retcode flush_namerules(sqlite *); extern char *tolower_u8(const char *); extern idmap_retcode gen_sql_expr_from_rule(idmap_namerule *, char **); extern idmap_retcode validate_list_cb_data(list_cb_data_t *, int, char **, int, uchar_t **, size_t); extern idmap_retcode process_list_svc_sql(sqlite *, const char *, char *, uint64_t, int, list_svc_cb, void *); extern idmap_retcode sid2pid_first_pass(lookup_state_t *, idmap_mapping *, idmap_id_res *); extern idmap_retcode sid2pid_second_pass(lookup_state_t *, idmap_mapping *, idmap_id_res *); extern idmap_retcode pid2sid_first_pass(lookup_state_t *, idmap_mapping *, idmap_id_res *, int); extern idmap_retcode pid2sid_second_pass(lookup_state_t *, idmap_mapping *, idmap_id_res *, int); extern idmap_retcode update_cache_sid2pid(lookup_state_t *, idmap_mapping *, idmap_id_res *); extern idmap_retcode update_cache_pid2sid(lookup_state_t *, idmap_mapping *, idmap_id_res *); extern idmap_retcode get_u2w_mapping(sqlite *, sqlite *, idmap_mapping *, idmap_mapping *, int); extern idmap_retcode get_w2u_mapping(sqlite *, sqlite *, idmap_mapping *, idmap_mapping *); extern idmap_retcode load_cfg_in_state(lookup_state_t *); extern void cleanup_lookup_state(lookup_state_t *); extern idmap_retcode ad_lookup_batch(lookup_state_t *, idmap_mapping_batch *, idmap_ids_res *); extern idmap_retcode lookup_name2sid(sqlite *, const char *, const char *, int, char **, char **, char **, idmap_rid_t *, idmap_id_type *, idmap_mapping *, int); extern idmap_retcode lookup_wksids_name2sid(const char *, const char *, char **, char **, char **, idmap_rid_t *, idmap_id_type *); extern idmap_retcode idmap_cache_flush(idmap_flush_op); extern const wksids_table_t *find_wksid_by_pid(posix_id_t pid, int is_user); extern const wksids_table_t *find_wksid_by_sid(const char *sid, int rid, idmap_id_type type); extern const wksids_table_t *find_wksid_by_name(const char *name, const char *domain, idmap_id_type type); extern const wksids_table_t *find_wk_by_sid(char *sid); #ifdef __cplusplus } #endif #endif /* _IDMAPD_H */