OpenSolaris_b135/head/nss_common.h
/*
* 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]
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*/
/*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
/*
*
* NOTE: The interfaces documented in this file may change in a minor
* release. It is intended that in the future a stronger committment
* will be made to these interface definitions which will guarantee
* them across minor releases.
*/
#ifndef _NSS_COMMON_H
#define _NSS_COMMON_H
#pragma ident "%Z%%M% %I% %E% SMI"
#include <synch.h>
#ifdef __cplusplus
extern "C" {
#endif
/*
* The name-service switch
* -----------------------
*
* From nsswitch.conf(4):
*
* The operating system uses a number of "databases" of information
* about hosts, users (passwd/shadow), groups and so forth. Data for
* these can come from a variety of "sources": host-names and
* -addresses, for example, may be found in /etc/hosts, NIS, NIS+ or
* DNS. One or more sources may be used for each database; the
* sources and their lookup order are specified in the
* /etc/nsswitch.conf file.
*
* The implementation of this consists of:
*
* - a "frontend" for each database, which provides a programming
* interface for that database [for example, the "passwd" frontend
* consists of getpwnam_r(), getpwuid_r(), getpwent_r(), setpwent(),
* endpwent(), and the old MT-unsafe routines getpwnam() and getpwuid()]
* and is implemented by calls to...
*
* - the common core of the switch (called the "switch" or "policy" engine);
* that determines what sources to use and when to invoke them. This
* component works in conjunction with the name service switch (nscd).
* Usually nscd is the policy engine for an application lookup.
*
* - Old style backend interfaces follow this pointer to function interface:
*
* A "backend" exists for useful <database, source> pairs. Each backend
* consists of whatever private data it needs and a set of functions
* that the switch engine may invoke on behalf of the frontend
* [e.g. the "nis" backend for "passwd" provides routines to lookup
* by name and by uid, as well as set/get/end iterator routines].
* The set of functions, and their expected arguments and results,
* constitutes a (database-specific) interface between a frontend and
* all its backends. The switch engine knows as little as possible
* about these interfaces.
*
* (The term "backend" is used ambiguously; it may also refer to a
* particular instantiation of a backend, or to the set of all backends
* for a particular source, e.g. "the nis backend").
*
* This header file defines the interface between the switch engine and the
* frontends and backends. Interfaces between specific frontends and
* backends are defined elsewhere; many are in <nss_dbdefs.h>.
* Most of these definitions are in the form of pointer to function
* indicies used to call specific backend APIs.
*
*
* Switch-engine outline
* ---------------------
*
* Frontends may call the following routines in the switch engine:
*
* nss_search() does getXXXbyYYY, e.g. getpwnam_r(), getpwuid_r()
* nss_getent() does getXXXent, e.g. getpwent_r()
* nss_setent() does setXXXent, e.g. setpwent()
* nss_endent() does endXXXent, e.g. endpwent()
* nss_delete() releases resources, in the style of endpwent().
*
* A getpwnam_r() call might proceed thus (with many details omitted):
*
* (1) getpwnam_r fills in (getpwnam-specific) argument/result struct,
* calls nss_search(),
* (2) nss_search queries the name service cache for an existing
* result via a call to _nsc_search(). if the cache
* (nscd) has a definitive answer skip to step 7
* (3) nss_search looks up configuration info, gets "passwd: files nis",
* (4) nss_search decides to try first source ("files"),
* (a) nss_search locates code for <"passwd", "files"> backend,
* (b) nss_search creates instance of backend,
* (c) nss_search calls get-by-name routine in backend,
* through a function pointer interface,
* (d) backend searches /etc/passwd, doesn't find the name,
* returns "not found" status to nss_search,
* (5) nss_search examines status and config info, decides to try
* next source ("nis"),
* (a) nss_search locates code for <"passwd", "nis"> backend,
* (b) nss_search creates instance of backend,
* (c) nss_search calls get-by-name routine in backend,
* through a function pointer interface,
* (d) backend searches passwd.byname, finds the desired entry,
* fills in the result part of the getpwnam-specific
* struct, returns "success" status to nss_search,
* (6) nss_search examines status and config info, decides to return
* to caller,
* (7) getpwnam_r extracts result from getpwnam-specific struct,
* returns to caller.
*
*
* Data structures
* ---------------
*
* Both databases and sources are represented by case-sensitive strings
* (the same strings that appear in the configuration file).
*
* The switch engine maintains a per-frontend data structure so that the
* results of steps (2), (a) and (b) can be cached. The frontend holds a
* handle (nss_db_root_t) to this structure and passes it in to the
* nss_*() routines.
*
* The nss_setent(), nss_getent() and nss_endent() routines introduce another
* variety of state (the current position in the enumeration process).
* Within a single source, this information is maintained by private data
* in the backend instance -- but, in the presence of multiple sources, the
* switch engine must keep track of the current backend instance [e.g either
* <"passwd", "files"> or <"passwd", "nis"> instances]. The switch engine
* has a separate per-enumeration data structure for this; again, the
* frontend holds a handle (nss_getent_t) and passes it in, along with the
* nss_db_root_t handle, to nss_setent(), nss_getent() and nss_endent().
*
*
* Multithreading
* --------------
*
* The switch engine takes care of locking; frontends should be written to
* be reentrant, and a backend instance may assume that all calls to it are
* serialized.
*
* If multiple threads simultaneously want to use a particular backend, the
* switch engine creates multiple backend instances (up to some limit
* specified by the frontend). Backends must of course lock any state that
* is shared between instances, and must serialize calls to any MT-unsafe
* code.
*
* The switch engine has no notion of per-thread state.
*
* Frontends can use the nss_getent_t handle to define the scope of the
* enumeration (set/get/endXXXent) state: a static handle gives global state
* (which is what Posix has specified for the getXXXent_r routines), handles
* in Thread-Specific Data give per-thread state, and handles on the stack
* give per-invocation state.
*/
/*
* Backend instances
* -----------------
*
* As far as the switch engine is concerned, an instance of a backend is a
* struct whose first two members are:
* - A pointer to a vector of function pointers, one for each
* database-specific function,
* - The length of the vector (an int), used for bounds-checking.
* There are four well-known function slots in the vector:
* [0] is a destructor for the backend instance,
* [1] is the endXXXent routine,
* [2] is the setXXXent routine,
* [3] is the getXXXent routine.
* Any other slots are database-specific getXXXbyYYY routines; the frontend
* specifies a slot-number to nss_search().
*
* The functions take two arguments:
* - a pointer to the backend instance (like a C++ "this" pointer)
* - a single (void *) pointer to the database-specific argument/result
* structure (the contents are opaque to the switch engine).
* The four well-known functions ignore the (void *) pointer.
*
* Backend routines return the following status codes to the switch engine:
*
* SUCCESS, UNAVAIL, NOTFOUND, TRYAGAIN (these are the same codes that may
* be specified in the config information; see nsswitch.conf(4))
*
* The remaining conditions/errors are internally generated and if
* necessary are translated, as to one of the above external errors,
* usually NOTFOUND or UNAVAIL.
*
* NSS_NISSERVDNS_TRYAGAIN (should only be used by the NIS backend for
* NIS server in DNS forwarding mode to indicate DNS server non-response).
*
* The policy component may return NSS_TRYLOCAL which signifies that nscd
* is not going to process the request, and it should be performed locally.
*
* NSS_ERROR is a catchall for internal error conditions, errno will be set
* to a system <errno.h> error that can help track down the problem if
* it is persistent. This error is the result of some internal error
* condition and should not be seen during or exposed to aan application.
* The error may be from the application side switch component or from the
* nscd side switch component.
*
* NSS_ALTRETRY and NSS_ALTRESET are internal codes used by the application
* side policy component and nscd to direct the policy component to
* communicate to a per-user nscd if/when per-user authentication is enabled.
*
* NSS_NSCD_PRIV is a catchall for internal nscd errors or status
* conditions. This return code is not visible to applications. nscd
* may use this as a status flag and maintain additional error or status
* information elsewhere in other private nscd data. This status value
* is for nscd private/internal use only.
*/
typedef enum {
NSS_SUCCESS = 0,
NSS_NOTFOUND = 1,
NSS_UNAVAIL = 2,
NSS_TRYAGAIN = 3,
NSS_NISSERVDNS_TRYAGAIN = 4,
NSS_TRYLOCAL = 5,
NSS_ERROR = 6,
NSS_ALTRETRY = 7,
NSS_ALTRESET = 8,
NSS_NSCD_PRIV = 9
} nss_status_t;
struct nss_backend;
#if defined(__STDC__)
typedef nss_status_t (*nss_backend_op_t)(struct nss_backend *, void *args);
#else
typedef nss_status_t (*nss_backend_op_t)();
#endif
struct nss_backend {
nss_backend_op_t *ops;
int n_ops;
};
typedef struct nss_backend nss_backend_t;
typedef int nss_dbop_t;
#define NSS_DBOP_DESTRUCTOR 0
#define NSS_DBOP_ENDENT 1
#define NSS_DBOP_SETENT 2
#define NSS_DBOP_GETENT 3
#define NSS_DBOP_next_iter (NSS_DBOP_GETENT + 1)
#define NSS_DBOP_next_noiter (NSS_DBOP_DESTRUCTOR + 1)
#define NSS_DBOP_next_ipv6_iter (NSS_DBOP_GETENT + 3)
#define NSS_LOOKUP_DBOP(instp, n) \
(((n) >= 0 && (n) < (instp)->n_ops) ? (instp)->ops[n] : 0)
#define NSS_INVOKE_DBOP(instp, n, argp) (\
((n) >= 0 && (n) < (instp)->n_ops && (instp)->ops[n] != 0) \
? (*(instp)->ops[n])(instp, argp) \
: NSS_UNAVAIL)
/*
* Locating and instantiating backends
* -----------------------------------
*
* To perform step (a), the switch consults a list of backend-finder routines,
* passing a <database, source> pair.
*
* There is a standard backend-finder; frontends may augment or replace this
* in order to, say, indicate that some backends are "compiled in" with the
* frontend.
*
* Backend-finders return a pointer to a constructor function for the backend.
* (or NULL if they can't find the backend). The switch engine caches these
* function pointers; when it needs to perform step (b), it calls the
* constructor function, which returns a pointer to a new instance of the
* backend, properly initialized (or returns NULL).
*/
#if defined(__STDC__)
typedef nss_backend_t *(*nss_backend_constr_t)(const char *db_name,
const char *src_name,
/* Hook for (unimplemented) args in nsswitch.conf */ const char *cfg_args);
#else
typedef nss_backend_t *(*nss_backend_constr_t)();
#endif
struct nss_backend_finder {
#if defined(__STDC__)
nss_backend_constr_t (*lookup)
(void *lkp_priv, const char *, const char *, void **del_privp);
void (*delete)
(void *del_priv, nss_backend_constr_t);
#else
nss_backend_constr_t (*lookup)();
void (*delete)();
#endif
struct nss_backend_finder *next;
void *lookup_priv;
};
typedef struct nss_backend_finder nss_backend_finder_t;
extern nss_backend_finder_t *nss_default_finders;
/*
* Frontend parameters
* -------------------
*
* The frontend must tell the switch engine:
* - the database name,
* - the compiled-in default configuration entry.
* It may also override default values for:
* - the database name to use when looking up the configuration
* information (e.g. "shadow" uses the config entry for "passwd"),
* - a limit on the number of instances of each backend that are
* simultaneously active,
* - a limit on the number of instances of each backend that are
* simultaneously dormant (waiting for new requests),
* - a flag that tells the switch engine to use the default configuration
* entry and ignore any other config entry for this database,
* - backend-finders (see above)
* - a cleanup routine that should be called when these parameters are
* about to be deleted.
*
* In order to do this, the frontend includes a pointer to an initialization
* function (nss_db_initf_t) in every nss_*() call. When necessary (normally
* just on the first invocation), the switch engine allocates a parameter
* structure (nss_db_params_t), fills in the default values, then calls
* the initialization function, which should update the parameter structure
* as necessary.
*
* (This might look more natural if we put nss_db_initf_t in nss_db_root_t,
* or abolished nss_db_initf_t and put nss_db_params_t in nss_db_root_t.
* It's done the way it is for shared-library efficiency, namely:
* - keep the unshared data (nss_db_root_t) to a minimum,
* - keep the symbol lookups and relocations to a minimum.
* In particular this means that non-null pointers, e.g. strings and
* function pointers, in global data are a bad thing).
*/
enum nss_dbp_flags {
NSS_USE_DEFAULT_CONFIG = 0x1
};
struct nss_db_params {
const char *name; /* Mandatory: database name */
const char *config_name; /* config-file database name */
const char *default_config; /* Mandatory: default config */
unsigned max_active_per_src;
unsigned max_dormant_per_src;
enum nss_dbp_flags flags;
nss_backend_finder_t *finders;
void *private; /* Not used by switch */
void (*cleanup)(struct nss_db_params *);
};
typedef struct nss_db_params nss_db_params_t;
#if defined(__STDC__)
typedef void (*nss_db_initf_t)(nss_db_params_t *);
#else
typedef void (*nss_db_initf_t)();
#endif
/*
* DBD param offsets in NSS2 nscd header.
* Offsets are relative to beginning of dbd section.
* 32 bit offsets should be sufficient, forever.
* 0 offset == NULL
* flags == nss_dbp_flags
*/
typedef struct nss_dbd {
uint32_t o_name;
uint32_t o_config_name;
uint32_t o_default_config;
uint32_t flags;
} nss_dbd_t;
/*
* These structures are defined inside the implementation of the switch
* engine; the interface just holds pointers to them.
*/
struct nss_db_state;
struct nss_getent_context;
/*
* Finally, the two handles that frontends hold:
*/
struct nss_db_root {
struct nss_db_state *s;
mutex_t lock;
};
typedef struct nss_db_root nss_db_root_t;
#define NSS_DB_ROOT_INIT { 0, DEFAULTMUTEX }
#define DEFINE_NSS_DB_ROOT(name) nss_db_root_t name = NSS_DB_ROOT_INIT
typedef struct {
struct nss_getent_context *ctx;
mutex_t lock;
} nss_getent_t;
#define NSS_GETENT_INIT { 0, DEFAULTMUTEX }
#define DEFINE_NSS_GETENT(name) nss_getent_t name = NSS_GETENT_INIT
/*
* Policy Engine Configuration
* ---------------------------
*
* When nscd is running it can reconfigure it's internal policy engine
* as well as advise an application's front-end and policy engine on how
* respond optimally to results being returned from nscd. This is done
* through the policy engine configuration interface.
*/
typedef enum {
NSS_CONFIG_GET,
NSS_CONFIG_PUT,
NSS_CONFIG_ADD,
NSS_CONFIG_DELETE,
NSS_CONFIG_LIST
} nss_config_op_t;
struct nss_config {
char *name;
nss_config_op_t cop;
mutex_t *lock;
void *buffer;
size_t length;
};
typedef struct nss_config nss_config_t;
#if defined(__STDC__)
extern nss_status_t nss_config(nss_config_t **, int);
extern nss_status_t nss_search(nss_db_root_t *, nss_db_initf_t,
int search_fnum, void *search_args);
extern nss_status_t nss_getent(nss_db_root_t *, nss_db_initf_t, nss_getent_t *,
void *getent_args);
extern void nss_setent(nss_db_root_t *, nss_db_initf_t, nss_getent_t *);
extern void nss_endent(nss_db_root_t *, nss_db_initf_t, nss_getent_t *);
extern void nss_delete(nss_db_root_t *);
extern nss_status_t nss_pack(void *, size_t, nss_db_root_t *,
nss_db_initf_t, int, void *);
extern nss_status_t nss_pack_ent(void *, size_t, nss_db_root_t *,
nss_db_initf_t, nss_getent_t *);
extern nss_status_t nss_unpack(void *, size_t, nss_db_root_t *,
nss_db_initf_t, int, void *);
extern nss_status_t nss_unpack_ent(void *, size_t, nss_db_root_t *,
nss_db_initf_t, nss_getent_t *, void *);
extern nss_status_t _nsc_search(nss_db_root_t *, nss_db_initf_t,
int search_fnum, void *search_args);
extern nss_status_t _nsc_getent_u(nss_db_root_t *, nss_db_initf_t,
nss_getent_t *, void *getent_args);
extern nss_status_t _nsc_setent_u(nss_db_root_t *, nss_db_initf_t,
nss_getent_t *);
extern nss_status_t _nsc_endent_u(nss_db_root_t *, nss_db_initf_t,
nss_getent_t *);
#else
extern nss_status_t nss_config();
extern nss_status_t nss_search();
extern nss_status_t nss_getent();
extern void nss_setent();
extern void nss_endent();
extern void nss_delete();
extern int nss_pack();
extern int nss_pack_ent();
extern int nss_unpack();
extern int nss_unpack_ent();
extern nss_status_t _nsc_search();
extern nss_status_t _nsc_getent_u();
extern nss_status_t _nsc_setent_u();
extern nss_status_t _nsc_endent_u();
#endif
#ifdef __cplusplus
}
#endif
#endif /* _NSS_COMMON_H */