/* * 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) 2004, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2013, Joyent, Inc. All rights reserved. */ #ifndef _LIBSCF_PRIV_H #define _LIBSCF_PRIV_H #include #include #ifdef __cplusplus extern "C" { #endif /* * NOTE * * The contents of this file are private to the implementation of Solaris * and are subject to change at any time without notice. */ #define SCF_PG_GENERAL_TYPE SCF_GROUP_FRAMEWORK #define SCF_PG_GENERAL_FLAGS 0 #define SCF_PG_GENERAL_OVR_TYPE SCF_GROUP_FRAMEWORK #define SCF_PG_GENERAL_OVR_FLAGS SCF_PG_FLAG_NONPERSISTENT #define SCF_PG_DEATHROW_TYPE SCF_GROUP_FRAMEWORK #define SCF_PG_DEATHROW_FLAGS SCF_PG_FLAG_NONPERSISTENT #define SCF_PG_OPTIONS_TYPE SCF_GROUP_FRAMEWORK #define SCF_PG_OPTIONS_FLAGS 0 #define SCF_PG_OPTIONS_OVR_TYPE SCF_GROUP_FRAMEWORK #define SCF_PG_OPTIONS_OVR_FLAGS SCF_PG_FLAG_NONPERSISTENT #define SCF_PG_RESTARTER_TYPE SCF_GROUP_FRAMEWORK #define SCF_PG_RESTARTER_FLAGS SCF_PG_FLAG_NONPERSISTENT #define SCF_PG_RESTARTER_ACTIONS_TYPE SCF_GROUP_FRAMEWORK #define SCF_PG_RESTARTER_ACTIONS_FLAGS SCF_PG_FLAG_NONPERSISTENT #define SCF_PROPERTY_CLEAR ((const char *)"maint_off") #define SCF_PROPERTY_MAINTENANCE ((const char *)"maint_on") #define SCF_PROPERTY_LOGFILE ((const char *)"logfile") #define SCF_PROPERTY_ALT_LOGFILE ((const char *)"alt_logfile") #define SCF_LEGACY_SERVICE ((const char *)"smf/legacy_run") #define SCF_LEGACY_PROPERTY_NAME ((const char *)"name") #define SCF_LEGACY_PROPERTY_INODE ((const char *)"inode") #define SCF_LEGACY_PROPERTY_SUFFIX ((const char *)"suffix") #define SCF_FMRI_TYPE_SVC 0x1 #define SCF_FMRI_TYPE_FILE 0x2 /* * Strings for use in constructing FMRIs */ #define SCF_FMRI_SVC_PREFIX "svc:" #define SCF_FMRI_FILE_PREFIX "file:" #define SCF_FMRI_SCOPE_PREFIX "//" #define SCF_FMRI_LOCAL_SCOPE "localhost" #define SCF_FMRI_SCOPE_SUFFIX "@localhost" #define SCF_FMRI_SERVICE_PREFIX "/" #define SCF_FMRI_INSTANCE_PREFIX ":" #define SCF_FMRI_PROPERTYGRP_PREFIX "/:properties/" #define SCF_FMRI_PROPERTY_PREFIX "/" #define SCF_FMRI_LEGACY_PREFIX "lrc:" /* * sulogin Service FMRI */ #define SVC_SULOGIN_FMRI ((const char *)"svc:/system/sulogin") typedef struct scf_decoration_info { const char *sdi_name; scf_type_t sdi_type; scf_value_t *sdi_value; /* can be SCF_DECORATE_CLEAR */ } scf_decoration_info_t; typedef int (*scf_decoration_func)(const scf_decoration_info_t *, void *); /* * calls a callback function for each decoration on the handle. If the * callback returns 0, the iteration stops and returns 0. If the callback * returns a non-zero value, the iteration continues. After full completion, * 1 is returned. On error, -1 is returned. */ int _scf_handle_decorations(scf_handle_t *, scf_decoration_func *, scf_value_t *, void *); /* * wait for a change to the propertygroup -- may return early. * For now, only one of these can be outstanding at a time. * * The second argument is how long, in seconds, to wait for a response. * * Returns SCF_COMPLETE on timeout, -1 on error, and SCF_SUCCESS in every * other case. You must call scf_pg_update() to see if the object has * actually changed. */ int _scf_pg_wait(scf_propertygroup_t *, int); /* * set up notifications for changes to a class of property groups (by name * and type) * * Only one thread can be sleeping in _scf_notify_wait() -- others will * fail. Deletions give an fmri in the output path. * * These do not survive unbind()->bind() -- in fact, that is currently the * only way to clear them. */ int _scf_notify_add_pgname(scf_handle_t *, const char *); int _scf_notify_add_pgtype(scf_handle_t *, const char *); int _scf_notify_wait(scf_propertygroup_t *, char *, size_t); /* * Internal interfaces for snapshot creation: * _scf_snapshot_take_new(), _scf_snapshot_take_new_named(), and * _scf_snapshot_take_attach() create a set of snaplevels * containing frozen versions of both the instance's property groups and * its parent service's property groups. _scf_snapshot_take_new() and * _scf_snapshot_take_new_named() create a new snapshot to which the * new snaplevels are attached, while _scf_snapshot_take_attach() * attaches the new snaplevels to a pre-existing snapshot. * * _scf_snapshot_take_new_named() records the passed in names into the * snaplevel instead of the instance and service name. This creates * an inconsistency, which should be resolved by using * _scf_snapshot_attach() to attach the new snaplevels to a snapshot * underneath the appropriate instance. The first snapshot can * then be deleted. * * _scf_snapshot_attach(snap1, snap2) points snap2 at the snaplevels * pointed to by snap1. After a call to either * _scf_snapshot_take_attach(snap1, snap2) or * _scf_snapshot_attach(inst, snap), scf_snapshot_update() will be * required for any open references to snap or snap2 to see the new * snaplevels. * * _scf_snapshot_delete() deletes the snapshot object. While * snaplevels, being only loosely connected to snapshots, stay * around until they are no longer referenced, any references *through * this snapshot object* will be invalidated. * * _scf_snapshot_take_new() can fail with at least _HANDLE_MISMATCH, * _CONNECTION_BROKEN, _INVALID_ARGUMENT, _NO_RESOURCES, _PERMISSION_DENIED, * _NOT_SET, _EXISTS. * * _scf_snapshot_take_new_named() can fail with at least _HANDLE_MISMATCH, * _CONNECTION_BROKEN, _INVALID_ARGUMENT, _NO_RESOURCES, _PERMISSION_DENIED, * _NOT_SET, _EXISTS. * * _scf_snapshot_take_attach() can fail with _CONNECTION_BROKEN, _NOT_SET, * _PERMISSION_DENIED, _NO_RESOURCES, _INVALID_ARGUMENT. * * _scf_snapshot_attach() can fail with _HANDLE_MISMATCH, _CONNECTION_BROKEN, * _NOT_SET, _NO_RESOURCES, _PERMISSION_DENIED. */ int _scf_snapshot_take_new(scf_instance_t *, const char *, scf_snapshot_t *); int _scf_snapshot_take_new_named(scf_instance_t *, const char *, const char *, const char *, scf_snapshot_t *); int _scf_snapshot_take_attach(scf_instance_t *, scf_snapshot_t *); int _scf_snapshot_attach(scf_snapshot_t *, scf_snapshot_t *); int _scf_snapshot_delete(scf_snapshot_t *); /* * Destructively portions up the first argument into the different portions * of a svc: fmri, and returns pointers to the applicable portions. Omitted * portions are set to NULL, except for the scope, which is set to the * default local scope if not specified. * * Parsing is attempted in the order of: svc:, file:. The identified type * of the service is returned in the second argument and may take a value * of: SCF_FMRI_TYPE_SVC or SCF_FMRI_TYPE_FILE. * * Note that some of the returned pointers (in particular the scope) may not * point into the passed buffer. */ int scf_parse_fmri(char *, int *, const char **, const char **, const char **, const char **, const char **); int scf_parse_svc_fmri(char *, const char **, const char **, const char **, const char **, const char **); int scf_parse_file_fmri(char *fmri, const char **scope, const char **path); ssize_t scf_canonify_fmri(const char *, char *, size_t); int _smf_refresh_instance_i(scf_instance_t *); typedef struct scf_simple_handle { scf_handle_t *h; scf_snapshot_t *snap; scf_instance_t *inst; scf_propertygroup_t *running_pg; scf_propertygroup_t *editing_pg; } scf_simple_handle_t; void scf_simple_handle_destroy(scf_simple_handle_t *); scf_simple_handle_t *scf_general_pg_setup(const char *, const char *); scf_transaction_t *scf_transaction_setup(scf_simple_handle_t *); int scf_transaction_restart(scf_simple_handle_t *, scf_transaction_t *); int scf_read_count_property(scf_simple_handle_t *, char *, uint64_t *); int scf_set_count_property(scf_transaction_t *, char *, uint64_t, boolean_t); /* * Walks all the instances matching a given fmri list. Each fmri in the array * can be one of the following: * * - Full instance name * - Full service name * - Full property group or property name * - Partial service or instance name * - A globbed pattern * * The matching rules for partial fmris are a slightly more complex. We allow * for any substring anchored at the end of the instance or service name, * provided it begins with a complete element in the fmri. For example, given * the fmri "svc:/system/filesystem/local:default", any of the following would * be acceptable matches: 'default', 'local', 'local:default', * 'filesystem/local'. The following would not be acceptable: * 'system/filesystem', 'filesystem/loc', 'system/local'. Possible flag values: * * SCF_WALK_MULTIPLE Allow individual arguments to correspond to * multiple instances. * * SCF_WALK_LEGACY Walk legacy services (indicated by a non-NULL * propery group). * * SCF_WALK_SERVICE If the user specifies a service, pass the * service to the callback without iterating over * its instances. * * SCF_WALK_PROPERTY Allow FMRIs which match property groups or * individual properties. Incompatible with * SCF_WALK_LEGACY. * * SCF_WALK_NOINSTANCE Walk only services. Must be used in * conjunction with SCF_WALK_SERVICE. * * SCF_WALK_EXPLICIT Walk only services if the match is exact * else return instances. Must be used in * conjunction with SCF_WALK_SERVICE. * * SCF_WALK_UNIPARTIAL Can be combined with SCF_WALK_MULTIPLE * so that an error is returned if a partial * fmri matches multiple instances, unless * a wildcard match is also used. * * If no arguments are given, then all instances in the service graph are * walked. * * The second to last parameter is set to UU_EXIT_FATAL if one of the arguments * is an invalid FMRI or matches multiple FMRIs when SCF_WALK_MULTIPLE is not * set. * * The last parameter is a user-supplied error function that is called when * reporting invalid arguments. */ #define SCF_WALK_MULTIPLE 0x01 #define SCF_WALK_LEGACY 0x02 #define SCF_WALK_SERVICE 0x04 #define SCF_WALK_PROPERTY 0x08 #define SCF_WALK_NOINSTANCE 0x10 #define SCF_WALK_EXPLICIT 0x20 #define SCF_WALK_UNIPARTIAL 0x40 /* * The default locations of the repository dbs */ #define REPOSITORY_DB "/etc/svc/repository.db" #define NONPERSIST_DB "/etc/svc/volatile/svc_nonpersist.db" #define FAST_REPOSITORY_DB "/etc/svc/volatile/fast_repository.db" #define REPOSITORY_CHECKPOINT "/etc/svc/volatile/checkpoint_repository.db" typedef struct scf_walkinfo { const char *fmri; scf_scope_t *scope; scf_service_t *svc; scf_instance_t *inst; scf_propertygroup_t *pg; scf_property_t *prop; int count; /* svcprop special */ } scf_walkinfo_t; typedef int (*scf_walk_callback)(void *, scf_walkinfo_t *); scf_error_t scf_walk_fmri(scf_handle_t *, int, char **, int, scf_walk_callback, void *, int *, void (*)(const char *, ...)); /* * Requests a backup of the repository with a particular name, which * can be any alphabetic string. Only privileged users can do this. * * Can fail with: * _NOT_BOUND, _CONNECTION_BROKEN, _PERMISSION_DENIED, _INVALID_ARGUMENT, * _INTERNAL (path too long, or the backup failed for an odd reason), * _BACKEND_READONLY (filesystem is still read-only) */ int _scf_request_backup(scf_handle_t *, const char *); /* * Repository switch client */ int _scf_repository_switch(scf_handle_t *, int); /* * Determines whether a property group requires authorization to read; this * does not in any way reflect whether the caller has that authorization. * To determine that, the caller must attempt to read the value of one of the * group's properties. * * Can fail with: * _NOT_BOUND, _CONNECTION_BROKEN, _INVALID_ARGUMENT, _INTERNAL, * _NO_RESOURCES, _CONSTRAINT_VIOLATED, _DELETED. */ int _scf_pg_is_read_protected(const scf_propertygroup_t *, boolean_t *); /* * Sets annotation data for SMF audit logging. Once this function has been * set, the next audit record will be preceded by an ADT_smf_annotation * with the information provided in this function. This function is used * to mark operations which comprise multiple primitive operations such as * svccfg import. */ int _scf_set_annotation(scf_handle_t *h, const char *operation, const char *file); /* * scf_pattern_t */ typedef struct scf_pattern { enum { PATTERN_INVALID, /* Uninitialized state */ PATTERN_EXACT, PATTERN_GLOB, PATTERN_PARTIAL } sp_type; char *sp_arg; /* Original argument */ struct scf_match *sp_matches; /* List of matches */ int sp_matchcount; /* # of matches */ } scf_pattern_t; int scf_cmp_pattern(char *, scf_pattern_t *); int gen_filenms_from_fmri(const char *, const char *, char *, char *); /* * Interfaces for bulk access to SMF-stored configuration. * * Each scf_propvec_t represents a single property to be read (with * scf_read_propvec) or written (with scf_write_propvec). * * The fields of a scf_propvec_t have the following meanings: * * pv_prop - the name of the property * pv_desc - a description string (optional; to be consumed by the caller) * pv_type - the type of the property * pv_ptr - where to store the data read, or a pointer to the data to * be written * pv_aux - additional data influencing the interpretation of pv_ptr * * The meaning of pv_ptr and pv_aux depends on the type of property. For: * * boolean - if pv_aux is 0, pv_ptr is a pointer to a boolean_t * if pv_aux is non-0, pv_ptr is a pointer to a uint64_t, * where pv_aux indicates the bit holding the truth value. * count - pv_ptr is a pointer to a uint64_t; pv_aux is unused * integer - pv_ptr is a pointer to an int64_t; pv_aux is unused * time - pv_ptr is a pointer to an scf_time_t; pv_aux is unused * opaque - pv_ptr is a pointer to an scf_opaque_t; pv_aux is unused * strings - (scf_read_propvec) pv_ptr is a pointer to a char * * (scf_write_propvec) pv_ptr is a pointer to an array of char * (both) pv_aux is unused */ typedef struct { void *so_addr; size_t so_size; } scf_opaque_t; typedef struct { const char *pv_prop; const char *pv_desc; scf_type_t pv_type; void *pv_ptr; uint64_t pv_aux; } scf_propvec_t; void scf_clean_propvec(scf_propvec_t *); int scf_read_propvec(const char *, const char *, boolean_t, scf_propvec_t *, scf_propvec_t **); int scf_write_propvec(const char *, const char *, scf_propvec_t *, scf_propvec_t **); scf_tmpl_errors_t *_scf_create_errors(const char *, int); int _scf_tmpl_add_error(scf_tmpl_errors_t *errs, scf_tmpl_error_type_t type, const char *pg_name, const char *prop_name, const char *ev1, const char *ev2, const char *actual, const char *tmpl_fmri, const char *tmpl_pg_name, const char *tmpl_pg_type, const char *tmpl_prop_name, const char *tmpl_prop_type); int _scf_tmpl_error_set_prefix(scf_tmpl_errors_t *, const char *); /* * Templates definitions */ /* * For CARDINALITY_VIOLATION and RANGE_VIOLATION, te_ev1 holds * the min value and te_ev2 holds the max value * * For MISSING_PG te_ev1 should hold the expected pg_name and * expected2 holds the expected pg_type. * * For SCF_TERR_PG_PATTERN_CONFLICT and SCF_TERR_GENERAL_REDEFINE te_ev1 is * the FMRI holding the conflicting pg_pattern. te_ev2 is the name of the * conflicting pg_pattern, and actual is the type of the conflicting * pg_pattern. * * SCF_TERR_PROP_PATTERN_CONFLICT te_ev1 is the FMRI holding the * conflicting prop_pattern. te_ev2 is the name of the conflicting * prop_pattern, and actual is the type of the conflicting prop_pattern. * * For SCF_TERR_INCLUDE_VALUES te_ev1 is the type specified for the * include_values element. * * For all other errors, te_ev1 should hold the expected value and * te_ev2 is ignored * * te_actual holds the current value of the property */ struct scf_tmpl_error { scf_tmpl_errors_t *te_errs; scf_tmpl_error_type_t te_type; const char *te_pg_name; const char *te_prop_name; const char *te_ev1; const char *te_ev2; const char *te_actual; const char *te_tmpl_fmri; const char *te_tmpl_pg_name; const char *te_tmpl_pg_type; const char *te_tmpl_prop_name; const char *te_tmpl_prop_type; }; /* * The pg_pattern element has two optional attributes that play a part in * selecting the appropriate prefix for the name of the pg_pattern property * group. The two attributes are name and type. The appropriate prefix * encodes the presence are absence of these attributes. * * SCF_PG_TM_PG_PATTERN_PREFIX neither attribute * SCF_PG_TM_PG_PATTERN_N_PREFIX name only * SCF_PG_TM_PG_PATTERN_T_PREFIX type only * SCF_PG_TM_PG_PATTERN_NT_PREFIX both name and type */ #define SCF_PG_TM_PG_PAT_BASE "tm_pgpat" #define SCF_PG_TM_PG_PATTERN_PREFIX ((const char *)SCF_PG_TM_PG_PAT_BASE \ "_") #define SCF_PG_TM_PG_PATTERN_N_PREFIX ((const char *)SCF_PG_TM_PG_PAT_BASE \ "n_") #define SCF_PG_TM_PG_PATTERN_T_PREFIX ((const char *)SCF_PG_TM_PG_PAT_BASE \ "t_") #define SCF_PG_TM_PG_PATTERN_NT_PREFIX ((const char *)SCF_PG_TM_PG_PAT_BASE \ "nt_") #define SCF_PG_TM_PROP_PATTERN_PREFIX ((const char *)"tm_proppat_") /* * Pad character to use when encoding strings for property names. */ #define SCF_ENCODE32_PAD ('-') /* * Functions for base 32 encoding/decoding */ int scf_decode32(const char *, size_t, char *, size_t, size_t *, char); int scf_encode32(const char *, size_t, char *, size_t, size_t *, char); /* * handy functions */ /* * _scf_sanitize_locale * Make sure a locale string has only alpha-numeric or '_' characters */ void _scf_sanitize_locale(char *); /* * _scf_read_tmpl_prop_type_as_string() * Handy function to get template property type as a string */ char *_scf_read_tmpl_prop_type_as_string(const scf_prop_tmpl_t *); /* * _scf_read_single_astring_from_pg() * Given a property group (pg) and a property name (pn), this function * retrives an astring value from pg/pn. */ char *_scf_read_single_astring_from_pg(scf_propertygroup_t *, const char *); /* * scf_instance_delete_prop() * Given instance, property group, and property, delete the property. */ int scf_instance_delete_prop(scf_instance_t *, const char *, const char *); /* * Functions to extract boot config information from FMRI_BOOT_CONFIG */ void scf_get_boot_config(uint8_t *); void scf_get_boot_config_ovr(uint8_t *); int scf_is_fastboot_default(void); /* * Set value of "config_ovr/fastreboot_default". */ int scf_fastreboot_default_set_transient(boolean_t); /* * scf_is_compatible_type() * Return true if the second type is the same type, or a subtype of the * first. */ int scf_is_compatible_type(scf_type_t, scf_type_t); /* * Check an array of services and enable any that don't have the * "application/auto_enable" property set to "false", which is * the interface to turn off this behaviour (see PSARC 2004/739). */ void _check_services(char **); /* * _scf_handle_create_and_bind() * convenience function that creates and binds a handle */ scf_handle_t *_scf_handle_create_and_bind(scf_version_t); /* * _smf_refresh_all_instances() * refresh all intances of a service * return SCF_SUCCESS or SCF_FAILED on _PERMISSION_DENIED, _BACKEND_ACCESS * or _BACKEND_READONLY. */ int _smf_refresh_all_instances(scf_service_t *); /* * _scf_get_fma_notify_params() * Specialized fuction to get fma notifitation parameters */ int _scf_get_fma_notify_params(const char *, nvlist_t *, int); /* * _scf_get_svc_notify_params() * Specialized function to get SMF state transition notification parameters */ int _scf_get_svc_notify_params(const char *, nvlist_t *, int32_t, int, int); /* * _scf_notify_get_params() * Specialized function to get notification parametes from a pg into an * nvlist_t */ int _scf_notify_get_params(scf_propertygroup_t *, nvlist_t *); #define SCF_NOTIFY_PARAMS_SOURCE_NAME ((const char *)"preference_source") #ifdef __cplusplus } #endif #endif /* _LIBSCF_PRIV_H */