/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _CONFIGD_H #define _CONFIGD_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* * Lock order: * * client lock * iter locks, in ID order * entity locks, in ID order * * (any iter/entity locks) * backend locks (NORMAL, then NONPERSIST) * rc_node lock * children's rc_node lock * cache bucket lock * rc_node lock[*] * * * only one node may be grabbed while holding a bucket lock * * leaf locks: (no other locks may be aquired while holding one) * rc_pg_notify_lock * rc_annotate_lock */ /* * Returns the minimum size for a structure of type 't' such * that it is safe to access field 'f'. */ #define offsetofend(t, f) (offsetof(t, f) + sizeof (((t *)0)->f)) /* * We want MUTEX_HELD, but we also want pthreads. So we're stuck with this. */ struct _lwp_mutex_t; extern int _mutex_held(struct _lwp_mutex_t *); #define MUTEX_HELD(m) _mutex_held((struct _lwp_mutex_t *)(m)) /* * Maximum levels of composition. */ #define COMPOSITION_DEPTH 2 #define CONFIGD_CORE "core.%f.%t.%p" #ifndef NDEBUG #define bad_error(f, e) \ uu_warn("%s:%d: %s() returned bad error %d. Aborting.\n", \ __FILE__, __LINE__, f, e); \ abort() #else #define bad_error(f, e) abort() #endif typedef enum backend_type { BACKEND_TYPE_NORMAL = 0, BACKEND_TYPE_NONPERSIST, BACKEND_TYPE_TOTAL /* backend use only */ } backend_type_t; /* * pre-declare rc_* types */ typedef struct rc_node rc_node_t; typedef struct rc_snapshot rc_snapshot_t; typedef struct rc_snaplevel rc_snaplevel_t; /* * notification layer -- protected by rc_pg_notify_lock */ typedef struct rc_notify_info rc_notify_info_t; typedef struct rc_notify_delete rc_notify_delete_t; #define RC_NOTIFY_MAX_NAMES 4 /* enough for now */ typedef struct rc_notify { uu_list_node_t rcn_list_node; rc_node_t *rcn_node; rc_notify_info_t *rcn_info; rc_notify_delete_t *rcn_delete; } rc_notify_t; struct rc_notify_delete { rc_notify_t rnd_notify; char rnd_fmri[REP_PROTOCOL_FMRI_LEN]; }; struct rc_notify_info { uu_list_node_t rni_list_node; rc_notify_t rni_notify; const char *rni_namelist[RC_NOTIFY_MAX_NAMES]; const char *rni_typelist[RC_NOTIFY_MAX_NAMES]; int rni_flags; int rni_waiters; pthread_cond_t rni_cv; }; #define RC_NOTIFY_ACTIVE 0x00000001 #define RC_NOTIFY_DRAIN 0x00000002 #define RC_NOTIFY_EMPTYING 0x00000004 typedef struct rc_node_pg_notify { uu_list_node_t rnpn_node; int rnpn_fd; rc_node_t *rnpn_pg; } rc_node_pg_notify_t; /* * cache layer */ /* * The 'key' for the main object hash. main_id is the main object * identifier. The rl_ids array contains: * * TYPE RL_IDS * scope unused * service unused * instance {service_id} * snapshot {service_id, instance_id} * snaplevel {service_id, instance_id, name_id, snapshot_id} * propertygroup {service_id, (instance_id or 0), (name_id or 0), * (snapshot_id or 0), (l_id or 0)} * property {service_id, (instance_id or 0), (name_id or 0), * (snapshot_id or 0), (l_id or 0), pg_id, gen_id} */ #define ID_SERVICE 0 #define ID_INSTANCE 1 #define ID_NAME 2 #define ID_SNAPSHOT 3 #define ID_LEVEL 4 #define ID_PG 5 #define ID_GEN 6 #define MAX_IDS 7 typedef struct rc_node_lookup { uint16_t rl_type; /* REP_PROTOCOL_ENTITY_* */ uint16_t rl_backend; /* BACKEND_TYPE_* */ uint32_t rl_main_id; /* primary identifier */ uint32_t rl_ids[MAX_IDS]; /* context */ } rc_node_lookup_t; struct rc_node { /* * read-only data */ rc_node_lookup_t rn_id; /* must be first */ uint32_t rn_hash; const char *rn_name; /* * type-specific state * (if space becomes an issue, these can become a union) */ /* * Used by instances, snapshots, and "composed property groups" only. * These are the entities whose properties should appear composed when * this entity is traversed by a composed iterator. 0 is the top-most * entity, down to COMPOSITION_DEPTH - 1. */ rc_node_t *rn_cchain[COMPOSITION_DEPTH]; /* * used by property groups only */ const char *rn_type; uint32_t rn_pgflags; uint32_t rn_gen_id; uu_list_t *rn_pg_notify_list; /* prot by rc_pg_notify_lock */ rc_notify_t rn_notify; /* prot by rc_pg_notify_lock */ /* * used by properties only */ rep_protocol_value_type_t rn_valtype; const char *rn_values; /* protected by rn_lock */ size_t rn_values_count; /* protected by rn_lock */ size_t rn_values_size; /* protected by rn_lock */ /* * used by snapshots only */ uint32_t rn_snapshot_id; rc_snapshot_t *rn_snapshot; /* protected by rn_lock */ /* * used by snaplevels only */ rc_snaplevel_t *rn_snaplevel; /* * mutable state */ pthread_mutex_t rn_lock; pthread_cond_t rn_cv; uint32_t rn_flags; uint32_t rn_refs; /* reference count */ uint32_t rn_other_refs; /* atomic refcount */ uint32_t rn_other_refs_held; /* for 1->0 transitions */ uu_list_t *rn_children; uu_list_node_t rn_sibling_node; rc_node_t *rn_parent; /* set if on child list */ rc_node_t *rn_former; /* next former node */ rc_node_t *rn_parent_ref; /* reference count target */ const char *rn_fmri; /* * external state (protected by hash chain lock) */ rc_node_t *rn_hash_next; }; /* * flag ordering: * RC_DYING * RC_NODE_CHILDREN_CHANGING * RC_NODE_CREATING_CHILD * RC_NODE_USING_PARENT * RC_NODE_IN_TX * * RC_NODE_USING_PARENT is special, because it lets you proceed up the tree, * in the reverse of the usual locking order. Because of this, there are * limitations on what you can do while holding it. While holding * RC_NODE_USING_PARENT, you may: * bump or release your parent's reference count * access fields in your parent * hold RC_NODE_USING_PARENT in the parent, proceeding recursively. * * If you are only holding *one* node's RC_NODE_USING_PARENT, and: * you are *not* proceeding recursively, you can hold your * immediate parent's RC_NODE_CHILDREN_CHANGING flag. * you hold your parent's RC_NODE_CHILDREN_CHANGING flag, you can add * RC_NODE_IN_TX to your flags. * you want to grab a flag in your parent, you must lock your parent, * lock yourself, drop RC_NODE_USING_PARENT, unlock yourself, * then proceed to manipulate the parent. */ #define RC_NODE_CHILDREN_CHANGING 0x00000001 /* child list in flux */ #define RC_NODE_HAS_CHILDREN 0x00000002 /* child list is accurate */ #define RC_NODE_IN_PARENT 0x00000004 /* I'm in my parent's list */ #define RC_NODE_USING_PARENT 0x00000008 /* parent ptr in use */ #define RC_NODE_CREATING_CHILD 0x00000010 /* a create is in progress */ #define RC_NODE_IN_TX 0x00000020 /* a tx is in progess */ #define RC_NODE_OLD 0x00000400 /* out-of-date object */ #define RC_NODE_ON_FORMER 0x00000800 /* on an rn_former list */ #define RC_NODE_PARENT_REF 0x00001000 /* parent_ref in use */ #define RC_NODE_UNREFED 0x00002000 /* unref processing active */ #define RC_NODE_DYING 0x00004000 /* node is being deleted */ #define RC_NODE_DEAD 0x00008000 /* node has been deleted */ #define RC_NODE_DYING_FLAGS \ (RC_NODE_CHILDREN_CHANGING | RC_NODE_IN_TX | RC_NODE_DYING | \ RC_NODE_CREATING_CHILD) #define RC_NODE_WAITING_FLAGS \ (RC_NODE_DYING_FLAGS | RC_NODE_USING_PARENT) typedef enum rc_auth_state { RC_AUTH_UNKNOWN = 0, /* No checks done yet. */ RC_AUTH_FAILED, /* Authorization checked & failed. */ RC_AUTH_PASSED /* Authorization succeeded. */ } rc_auth_state_t; /* * Some authorization checks are performed in rc_node_setup_tx() in * response to the REP_PROTOCOL_PROPERTYGRP_TX_START message. Other checks * must wait until the actual transaction operations are received in the * REP_PROTOCOL_PROPERTYGRP_TX_COMMIT message. This second set of checks * is performed in rc_tx_commit(). rnp_auth_string and rnp_authorized in * the following structure are used to hold the results of the * authorization checking done in rc_node_setup_tx() for later use by * rc_tx_commit(). * * In client.c transactions are represented by rc_node_ptr structures which * point to a property group rc_node_t. Thus, this is an appropriate place * to hold authorization state. */ typedef struct rc_node_ptr { rc_node_t *rnp_node; const char *rnp_auth_string; /* authorization string */ rc_auth_state_t rnp_authorized; /* transaction pre-auth rslt. */ char rnp_deleted; /* object was deleted */ } rc_node_ptr_t; #define NODE_PTR_NOT_HELD(npp) \ ((npp)->rnp_node == NULL || !MUTEX_HELD(&(npp)->rnp_node->rn_lock)) typedef int rc_iter_filter_func(rc_node_t *, void *); typedef struct rc_node_iter { rc_node_t *rni_parent; int rni_clevel; /* index into rni_parent->rn_cchain[] */ rc_node_t *rni_iter_node; uu_list_walk_t *rni_iter; uint32_t rni_type; /* * for normal walks */ rc_iter_filter_func *rni_filter; void *rni_filter_arg; /* * for value walks */ uint32_t rni_offset; /* next value offset */ uint32_t rni_last_offset; /* previous value offset */ } rc_node_iter_t; typedef struct rc_node_tx { rc_node_ptr_t rnt_ptr; int rnt_authorized; /* No need to check anymore. */ } rc_node_tx_t; typedef struct cache_bucket { pthread_mutex_t cb_lock; rc_node_t *cb_head; char cb_pad[64 - sizeof (pthread_mutex_t) - 2 * sizeof (rc_node_t *)]; } cache_bucket_t; /* * tx_commit_data_tx is an opaque structure which is defined in object.c. * It contains the data of the transaction that is to be committed. * Accessor functions in object.c allow other modules to retrieve * information. */ typedef struct tx_commit_data tx_commit_data_t; /* * Snapshots */ struct rc_snapshot { uint32_t rs_snap_id; pthread_mutex_t rs_lock; pthread_cond_t rs_cv; uint32_t rs_flags; uint32_t rs_refcnt; /* references from rc_nodes */ uint32_t rs_childref; /* references to children */ rc_snaplevel_t *rs_levels; /* list of levels */ rc_snapshot_t *rs_hash_next; }; #define RC_SNAPSHOT_FILLING 0x00000001 /* rs_levels changing */ #define RC_SNAPSHOT_READY 0x00000002 #define RC_SNAPSHOT_DEAD 0x00000004 /* no resources */ typedef struct rc_snaplevel_pgs { uint32_t rsp_pg_id; uint32_t rsp_gen_id; } rc_snaplevel_pgs_t; struct rc_snaplevel { rc_snapshot_t *rsl_parent; uint32_t rsl_level_num; uint32_t rsl_level_id; uint32_t rsl_service_id; uint32_t rsl_instance_id; const char *rsl_scope; const char *rsl_service; const char *rsl_instance; rc_snaplevel_t *rsl_next; }; /* * Client layer -- the IDs fields must be first, in order for the search * routines to work correctly. */ enum repcache_txstate { REPCACHE_TX_INIT, REPCACHE_TX_SETUP, REPCACHE_TX_COMMITTED }; typedef struct repcache_entity { uint32_t re_id; uu_avl_node_t re_link; uint32_t re_changeid; pthread_mutex_t re_lock; uint32_t re_type; rc_node_ptr_t re_node; enum repcache_txstate re_txstate; /* property groups only */ } repcache_entity_t; typedef struct repcache_iter { uint32_t ri_id; uu_avl_node_t ri_link; uint32_t ri_type; /* result type */ pthread_mutex_t ri_lock; uint32_t ri_sequence; rc_node_iter_t *ri_iter; } repcache_iter_t; typedef struct repcache_client { /* * constants */ uint32_t rc_id; /* must be first */ int rc_all_auths; /* bypass auth checks */ uint32_t rc_debug; /* debug flags */ pid_t rc_pid; /* pid of opening process */ door_id_t rc_doorid; /* a globally unique identifier */ int rc_doorfd; /* our door's FD */ /* * Constants used for security auditing * * rc_adt_session points to the audit session data that is used for * the life of the client. rc_adt_sessionid is the session ID that * is initially assigned when the audit session is started. See * start_audit_session() in client.c. This session id is used for * audit events except when we are processing a set of annotated * events. Annotated events use a separate session id so that they * can be grouped. See set_annotation() in client.c. */ adt_session_data_t *rc_adt_session; /* Session data. */ au_asid_t rc_adt_sessionid; /* Main session ID for */ /* auditing */ /* * client list linkage, protected by hash chain lock */ uu_list_node_t rc_link; /* * notification information, protected by rc_node layer */ rc_node_pg_notify_t rc_pg_notify; rc_notify_info_t rc_notify_info; /* * client_wait output, only usable by rc_notify_thr */ rc_node_ptr_t rc_notify_ptr; /* * register sets, protected by rc_lock */ uu_avl_t *rc_entities; uu_avl_t *rc_iters; /* * Variables, protected by rc_lock */ int rc_refcnt; /* in-progress door calls */ int rc_flags; /* see RC_CLIENT_* symbols below */ uint32_t rc_changeid; /* used to make backups idempotent */ pthread_t rc_insert_thr; /* single thread trying to insert */ pthread_t rc_notify_thr; /* single thread waiting for notify */ pthread_cond_t rc_cv; pthread_mutex_t rc_lock; /* * Per-client audit information. These fields must be protected by * rc_annotate_lock separately from rc_lock because they may need * to be accessed from rc_node.c with an entity or iterator lock * held, and those must be taken after rc_lock. */ int rc_annotate; /* generate annotation event if set */ const char *rc_operation; /* operation for audit annotation */ const char *rc_file; /* file name for audit annotation */ pthread_mutex_t rc_annotate_lock; } repcache_client_t; /* Bit definitions for rc_flags. */ #define RC_CLIENT_DEAD 0x00000001 typedef struct client_bucket { pthread_mutex_t cb_lock; uu_list_t *cb_list; char ch_pad[64 - sizeof (pthread_mutex_t) - sizeof (uu_list_t *)]; } client_bucket_t; enum rc_ptr_type { RC_PTR_TYPE_ENTITY = 1, RC_PTR_TYPE_ITER }; typedef struct request_log_ptr { enum rc_ptr_type rlp_type; uint32_t rlp_id; void *rlp_ptr; /* repcache_{entity,iter}_t */ void *rlp_data; /* rc_node, for ENTITY only */ } request_log_ptr_t; #define MAX_PTRS 3 /* * rl_start through rl_client cannot move without changing start_log() */ typedef struct request_log_entry { hrtime_t rl_start; hrtime_t rl_end; pthread_t rl_tid; uint32_t rl_clientid; repcache_client_t *rl_client; enum rep_protocol_requestid rl_request; rep_protocol_responseid_t rl_response; int rl_num_ptrs; request_log_ptr_t rl_ptrs[MAX_PTRS]; } request_log_entry_t; /* * thread information */ typedef enum thread_state { TI_CREATED, TI_DOOR_RETURN, TI_SIGNAL_WAIT, TI_MAIN_DOOR_CALL, TI_CLIENT_CALL } thread_state_t; typedef struct thread_info { pthread_t ti_thread; uu_list_node_t ti_node; /* for list of all thread */ /* * per-thread globals */ ucred_t *ti_ucred; /* for credential lookups */ int ti_ucred_read; /* ucred holds current creds */ /* * per-thread state information, for debuggers */ hrtime_t ti_lastchange; thread_state_t ti_state; thread_state_t ti_prev_state; repcache_client_t *ti_active_client; request_log_entry_t ti_log; struct rep_protocol_request *ti_client_request; repository_door_request_t *ti_main_door_request; } thread_info_t; /* * Backend layer */ typedef struct backend_query backend_query_t; typedef struct backend_tx backend_tx_t; /* * configd.c */ int create_connection(ucred_t *cred, repository_door_request_t *rp, size_t rp_size, int *out_fd); thread_info_t *thread_self(void); void thread_newstate(thread_info_t *, thread_state_t); ucred_t *get_ucred(void); int ucred_is_privileged(ucred_t *); adt_session_data_t *get_audit_session(void); void configd_critical(const char *, ...); void configd_vcritical(const char *, va_list); extern int is_main_repository; extern int max_repository_backups; /* * maindoor.c */ int setup_main_door(const char *); /* * client.c */ int client_annotation_needed(char *, size_t, char *, size_t); void client_annotation_finished(void); int create_client(pid_t, uint32_t, int, int *); int client_init(void); int client_is_privileged(void); void log_enter(request_log_entry_t *); /* * rc_node.c, backend/cache interfaces (rc_node_t) */ int rc_node_init(); int rc_check_type_name(uint32_t, const char *); void rc_node_ptr_free_mem(rc_node_ptr_t *); void rc_node_rele(rc_node_t *); rc_node_t *rc_node_setup(rc_node_t *, rc_node_lookup_t *, const char *, rc_node_t *); rc_node_t *rc_node_setup_pg(rc_node_t *, rc_node_lookup_t *, const char *, const char *, uint32_t, uint32_t, rc_node_t *); rc_node_t *rc_node_setup_snapshot(rc_node_t *, rc_node_lookup_t *, const char *, uint32_t, rc_node_t *); rc_node_t *rc_node_setup_snaplevel(rc_node_t *, rc_node_lookup_t *, rc_snaplevel_t *, rc_node_t *); int rc_node_create_property(rc_node_t *, rc_node_lookup_t *, const char *, rep_protocol_value_type_t, const char *, size_t, size_t); rc_node_t *rc_node_alloc(void); void rc_node_destroy(rc_node_t *); /* * rc_node.c, client interface (rc_node_ptr_t, rc_node_iter_t) */ void rc_node_ptr_init(rc_node_ptr_t *); int rc_local_scope(uint32_t, rc_node_ptr_t *); void rc_node_clear(rc_node_ptr_t *, int); void rc_node_ptr_assign(rc_node_ptr_t *, const rc_node_ptr_t *); int rc_node_name(rc_node_ptr_t *, char *, size_t, uint32_t, size_t *); int rc_node_fmri(rc_node_ptr_t *, char *, size_t, size_t *); int rc_node_parent_type(rc_node_ptr_t *, uint32_t *); int rc_node_get_child(rc_node_ptr_t *, const char *, uint32_t, rc_node_ptr_t *); int rc_node_get_parent(rc_node_ptr_t *, uint32_t, rc_node_ptr_t *); int rc_node_get_property_type(rc_node_ptr_t *, rep_protocol_value_type_t *); int rc_node_get_property_value(rc_node_ptr_t *, struct rep_protocol_value_response *, size_t *); int rc_node_create_child(rc_node_ptr_t *, uint32_t, const char *, rc_node_ptr_t *); int rc_node_create_child_pg(rc_node_ptr_t *, uint32_t, const char *, const char *, uint32_t, rc_node_ptr_t *); int rc_node_update(rc_node_ptr_t *); int rc_node_delete(rc_node_ptr_t *); int rc_node_next_snaplevel(rc_node_ptr_t *, rc_node_ptr_t *); int rc_node_setup_iter(rc_node_ptr_t *, rc_node_iter_t **, uint32_t, size_t, const char *); int rc_iter_next(rc_node_iter_t *, rc_node_ptr_t *, uint32_t); int rc_iter_next_value(rc_node_iter_t *, struct rep_protocol_value_response *, size_t *, int); void rc_iter_destroy(rc_node_iter_t **); int rc_node_setup_tx(rc_node_ptr_t *, rc_node_ptr_t *); int rc_tx_commit(rc_node_ptr_t *, const void *, size_t); void rc_pg_notify_init(rc_node_pg_notify_t *); int rc_pg_notify_setup(rc_node_pg_notify_t *, rc_node_ptr_t *, int); void rc_pg_notify_fini(rc_node_pg_notify_t *); void rc_notify_info_init(rc_notify_info_t *); int rc_notify_info_add_name(rc_notify_info_t *, const char *); int rc_notify_info_add_type(rc_notify_info_t *, const char *); int rc_notify_info_wait(rc_notify_info_t *, rc_node_ptr_t *, char *, size_t); void rc_notify_info_fini(rc_notify_info_t *); int rc_snapshot_take_new(rc_node_ptr_t *, const char *, const char *, const char *, rc_node_ptr_t *); int rc_snapshot_take_attach(rc_node_ptr_t *, rc_node_ptr_t *); int rc_snapshot_attach(rc_node_ptr_t *, rc_node_ptr_t *); /* * file_object.c */ int object_fill_children(rc_node_t *); int object_create(rc_node_t *, uint32_t, const char *, rc_node_t **); int object_create_pg(rc_node_t *, uint32_t, const char *, const char *, uint32_t, rc_node_t **); int object_delete(rc_node_t *); void object_free_values(const char *, uint32_t, size_t, size_t); int object_fill_snapshot(rc_snapshot_t *); int object_snapshot_take_new(rc_node_t *, const char *, const char *, const char *, rc_node_t **); int object_snapshot_attach(rc_node_lookup_t *, uint32_t *, int); /* * object.c */ int object_tx_commit(rc_node_lookup_t *, tx_commit_data_t *, uint32_t *); /* Functions to access transaction commands. */ int tx_cmd_action(tx_commit_data_t *, size_t, enum rep_protocol_transaction_action *); size_t tx_cmd_count(tx_commit_data_t *); int tx_cmd_nvalues(tx_commit_data_t *, size_t, uint32_t *); int tx_cmd_prop(tx_commit_data_t *, size_t, const char **); int tx_cmd_prop_type(tx_commit_data_t *, size_t, uint32_t *); int tx_cmd_value(tx_commit_data_t *, size_t, uint32_t, const char **); void tx_commit_data_free(tx_commit_data_t *); int tx_commit_data_new(const void *, size_t, tx_commit_data_t **); /* * snapshot.c */ int rc_snapshot_get(uint32_t, rc_snapshot_t **); void rc_snapshot_rele(rc_snapshot_t *); void rc_snaplevel_hold(rc_snaplevel_t *); void rc_snaplevel_rele(rc_snaplevel_t *); /* * backend.c */ int backend_init(const char *, const char *, int); void backend_fini(void); rep_protocol_responseid_t backend_create_backup(const char *); rep_protocol_responseid_t backend_switch(int); /* * call on any database inconsistency -- cleans up state as best it can, * and exits with a "Database Bad" error code. */ void backend_panic(const char *, ...) __NORETURN; #pragma rarely_called(backend_panic) backend_query_t *backend_query_alloc(void); void backend_query_append(backend_query_t *, const char *); void backend_query_add(backend_query_t *, const char *, ...); void backend_query_free(backend_query_t *); typedef int backend_run_callback_f(void *data, int columns, char **vals, char **names); #define BACKEND_CALLBACK_CONTINUE 0 #define BACKEND_CALLBACK_ABORT 1 backend_run_callback_f backend_fail_if_seen; /* aborts TX if called */ int backend_run(backend_type_t, backend_query_t *, backend_run_callback_f *, void *); int backend_tx_begin(backend_type_t, backend_tx_t **); int backend_tx_begin_ro(backend_type_t, backend_tx_t **); void backend_tx_end_ro(backend_tx_t *); enum id_space { BACKEND_ID_SERVICE_INSTANCE, BACKEND_ID_PROPERTYGRP, BACKEND_ID_GENERATION, BACKEND_ID_PROPERTY, BACKEND_ID_VALUE, BACKEND_ID_SNAPNAME, BACKEND_ID_SNAPSHOT, BACKEND_ID_SNAPLEVEL, BACKEND_ID_INVALID /* always illegal */ }; uint32_t backend_new_id(backend_tx_t *, enum id_space); int backend_tx_run_update(backend_tx_t *, const char *, ...); int backend_tx_run_update_changed(backend_tx_t *, const char *, ...); int backend_tx_run_single_int(backend_tx_t *tx, backend_query_t *q, uint32_t *buf); int backend_tx_run(backend_tx_t *, backend_query_t *, backend_run_callback_f *, void *); int backend_tx_commit(backend_tx_t *); void backend_tx_rollback(backend_tx_t *); #ifdef __cplusplus } #endif #endif /* _CONFIGD_H */