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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/dtrace/dtnfsclient/@/rpc/svc.h |
/* $NetBSD: svc.h,v 1.17 2000/06/02 22:57:56 fvdl Exp $ */ /* * Sun RPC is a product of Sun Microsystems, Inc. and is provided for * unrestricted use provided that this legend is included on all tape * media and as a part of the software program in whole or part. Users * may copy or modify Sun RPC without charge, but are not authorized * to license or distribute it to anyone else except as part of a product or * program developed by the user. * * SUN RPC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE * WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE. * * Sun RPC is provided with no support and without any obligation on the * part of Sun Microsystems, Inc. to assist in its use, correction, * modification or enhancement. * * SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE * INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY SUN RPC * OR ANY PART THEREOF. * * In no event will Sun Microsystems, Inc. be liable for any lost revenue * or profits or other special, indirect and consequential damages, even if * Sun has been advised of the possibility of such damages. * * Sun Microsystems, Inc. * 2550 Garcia Avenue * Mountain View, California 94043 * * from: @(#)svc.h 1.35 88/12/17 SMI * from: @(#)svc.h 1.27 94/04/25 SMI * $FreeBSD: release/9.1.0/sys/rpc/svc.h 193436 2009-06-04 14:13:06Z rmacklem $ */ /* * svc.h, Server-side remote procedure call interface. * * Copyright (C) 1986-1993 by Sun Microsystems, Inc. */ #ifndef _RPC_SVC_H #define _RPC_SVC_H #include <sys/cdefs.h> #ifdef _KERNEL #include <sys/queue.h> #include <sys/_lock.h> #include <sys/_mutex.h> #include <sys/_sx.h> #include <sys/condvar.h> #include <sys/sysctl.h> #endif /* * This interface must manage two items concerning remote procedure calling: * * 1) An arbitrary number of transport connections upon which rpc requests * are received. The two most notable transports are TCP and UDP; they are * created and registered by routines in svc_tcp.c and svc_udp.c, respectively; * they in turn call xprt_register and xprt_unregister. * * 2) An arbitrary number of locally registered services. Services are * described by the following four data: program number, version number, * "service dispatch" function, a transport handle, and a boolean that * indicates whether or not the exported program should be registered with a * local binder service; if true the program's number and version and the * port number from the transport handle are registered with the binder. * These data are registered with the rpc svc system via svc_register. * * A service's dispatch function is called whenever an rpc request comes in * on a transport. The request's program and version numbers must match * those of the registered service. The dispatch function is passed two * parameters, struct svc_req * and SVCXPRT *, defined below. */ /* * Service control requests */ #define SVCGET_VERSQUIET 1 #define SVCSET_VERSQUIET 2 #define SVCGET_CONNMAXREC 3 #define SVCSET_CONNMAXREC 4 /* * Operations for rpc_control(). */ #define RPC_SVC_CONNMAXREC_SET 0 /* set max rec size, enable nonblock */ #define RPC_SVC_CONNMAXREC_GET 1 enum xprt_stat { XPRT_DIED, XPRT_MOREREQS, XPRT_IDLE }; struct __rpc_svcxprt; struct mbuf; struct xp_ops { #ifdef _KERNEL /* receive incoming requests */ bool_t (*xp_recv)(struct __rpc_svcxprt *, struct rpc_msg *, struct sockaddr **, struct mbuf **); /* get transport status */ enum xprt_stat (*xp_stat)(struct __rpc_svcxprt *); /* send reply */ bool_t (*xp_reply)(struct __rpc_svcxprt *, struct rpc_msg *, struct sockaddr *, struct mbuf *); /* destroy this struct */ void (*xp_destroy)(struct __rpc_svcxprt *); /* catch-all function */ bool_t (*xp_control)(struct __rpc_svcxprt *, const u_int, void *); #else /* receive incoming requests */ bool_t (*xp_recv)(struct __rpc_svcxprt *, struct rpc_msg *); /* get transport status */ enum xprt_stat (*xp_stat)(struct __rpc_svcxprt *); /* get arguments */ bool_t (*xp_getargs)(struct __rpc_svcxprt *, xdrproc_t, void *); /* send reply */ bool_t (*xp_reply)(struct __rpc_svcxprt *, struct rpc_msg *); /* free mem allocated for args */ bool_t (*xp_freeargs)(struct __rpc_svcxprt *, xdrproc_t, void *); /* destroy this struct */ void (*xp_destroy)(struct __rpc_svcxprt *); #endif }; #ifndef _KERNEL struct xp_ops2 { /* catch-all function */ bool_t (*xp_control)(struct __rpc_svcxprt *, const u_int, void *); }; #endif #ifdef _KERNEL struct __rpc_svcpool; struct __rpc_svcthread; #endif /* * Server side transport handle. In the kernel, transports have a * reference count which tracks the number of currently assigned * worker threads plus one for the service pool's reference. */ typedef struct __rpc_svcxprt { #ifdef _KERNEL volatile u_int xp_refs; struct sx xp_lock; struct __rpc_svcpool *xp_pool; /* owning pool (see below) */ TAILQ_ENTRY(__rpc_svcxprt) xp_link; TAILQ_ENTRY(__rpc_svcxprt) xp_alink; bool_t xp_registered; /* xprt_register has been called */ bool_t xp_active; /* xprt_active has been called */ struct __rpc_svcthread *xp_thread; /* assigned service thread */ struct socket* xp_socket; const struct xp_ops *xp_ops; char *xp_netid; /* network token */ struct sockaddr_storage xp_ltaddr; /* local transport address */ struct sockaddr_storage xp_rtaddr; /* remote transport address */ void *xp_p1; /* private: for use by svc ops */ void *xp_p2; /* private: for use by svc ops */ void *xp_p3; /* private: for use by svc lib */ int xp_type; /* transport type */ int xp_idletimeout; /* idle time before closing */ time_t xp_lastactive; /* time of last RPC */ u_int64_t xp_sockref; /* set by nfsv4 to identify socket */ int xp_upcallset; /* socket upcall is set up */ #else int xp_fd; u_short xp_port; /* associated port number */ const struct xp_ops *xp_ops; int xp_addrlen; /* length of remote address */ struct sockaddr_in xp_raddr; /* remote addr. (backward ABI compat) */ /* XXX - fvdl stick this here for ABI backward compat reasons */ const struct xp_ops2 *xp_ops2; char *xp_tp; /* transport provider device name */ char *xp_netid; /* network token */ struct netbuf xp_ltaddr; /* local transport address */ struct netbuf xp_rtaddr; /* remote transport address */ struct opaque_auth xp_verf; /* raw response verifier */ void *xp_p1; /* private: for use by svc ops */ void *xp_p2; /* private: for use by svc ops */ void *xp_p3; /* private: for use by svc lib */ int xp_type; /* transport type */ #endif } SVCXPRT; /* * Interface to server-side authentication flavors. */ typedef struct __rpc_svcauth { struct svc_auth_ops { #ifdef _KERNEL int (*svc_ah_wrap)(struct __rpc_svcauth *, struct mbuf **); int (*svc_ah_unwrap)(struct __rpc_svcauth *, struct mbuf **); void (*svc_ah_release)(struct __rpc_svcauth *); #else int (*svc_ah_wrap)(struct __rpc_svcauth *, XDR *, xdrproc_t, caddr_t); int (*svc_ah_unwrap)(struct __rpc_svcauth *, XDR *, xdrproc_t, caddr_t); #endif } *svc_ah_ops; void *svc_ah_private; } SVCAUTH; /* * Server transport extensions (accessed via xp_p3). */ typedef struct __rpc_svcxprt_ext { int xp_flags; /* versquiet */ SVCAUTH xp_auth; /* interface to auth methods */ } SVCXPRT_EXT; #ifdef _KERNEL /* * The services list * Each entry represents a set of procedures (an rpc program). * The dispatch routine takes request structs and runs the * apropriate procedure. */ struct svc_callout { TAILQ_ENTRY(svc_callout) sc_link; rpcprog_t sc_prog; rpcvers_t sc_vers; char *sc_netid; void (*sc_dispatch)(struct svc_req *, SVCXPRT *); }; TAILQ_HEAD(svc_callout_list, svc_callout); struct __rpc_svcthread; /* * Service request */ struct svc_req { STAILQ_ENTRY(svc_req) rq_link; /* list of requests for a thread */ struct __rpc_svcthread *rq_thread; /* thread which is to execute this */ uint32_t rq_xid; /* RPC transaction ID */ uint32_t rq_prog; /* service program number */ uint32_t rq_vers; /* service protocol version */ uint32_t rq_proc; /* the desired procedure */ size_t rq_size; /* space used by request */ struct mbuf *rq_args; /* XDR-encoded procedure arguments */ struct opaque_auth rq_cred; /* raw creds from the wire */ struct opaque_auth rq_verf; /* verifier for the reply */ void *rq_clntcred; /* read only cooked cred */ SVCAUTH rq_auth; /* interface to auth methods */ SVCXPRT *rq_xprt; /* associated transport */ struct sockaddr *rq_addr; /* reply address or NULL if connected */ void *rq_p1; /* application workspace */ int rq_p2; /* application workspace */ uint64_t rq_p3; /* application workspace */ char rq_credarea[3*MAX_AUTH_BYTES]; }; STAILQ_HEAD(svc_reqlist, svc_req); #define svc_getrpccaller(rq) \ ((rq)->rq_addr ? (rq)->rq_addr : \ (struct sockaddr *) &(rq)->rq_xprt->xp_rtaddr) /* * This structure is used to manage a thread which is executing * requests from a service pool. A service thread is in one of three * states: * * SVCTHREAD_SLEEPING waiting for a request to process * SVCTHREAD_ACTIVE processing a request * SVCTHREAD_EXITING exiting after finishing current request * * Threads which have no work to process sleep on the pool's sp_active * list. When a transport becomes active, it is assigned a service * thread to read and execute pending RPCs. */ typedef struct __rpc_svcthread { SVCXPRT *st_xprt; /* transport we are processing */ struct svc_reqlist st_reqs; /* RPC requests to execute */ int st_reqcount; /* number of queued reqs */ struct cv st_cond; /* sleeping for work */ LIST_ENTRY(__rpc_svcthread) st_link; /* all threads list */ LIST_ENTRY(__rpc_svcthread) st_ilink; /* idle threads list */ LIST_ENTRY(__rpc_svcthread) st_alink; /* application thread list */ } SVCTHREAD; LIST_HEAD(svcthread_list, __rpc_svcthread); /* * In the kernel, we can't use global variables to store lists of * transports etc. since otherwise we could not have two unrelated RPC * services running, each on its own thread. We solve this by * importing a tiny part of a Solaris kernel concept, SVCPOOL. * * A service pool contains a set of transports and service callbacks * for a set of related RPC services. The pool handle should be passed * when creating new transports etc. Future work may include extending * this to support something similar to the Solaris multi-threaded RPC * server. */ TAILQ_HEAD(svcxprt_list, __rpc_svcxprt); enum svcpool_state { SVCPOOL_INIT, /* svc_run not called yet */ SVCPOOL_ACTIVE, /* normal running state */ SVCPOOL_THREADWANTED, /* new service thread requested */ SVCPOOL_THREADSTARTING, /* new service thread started */ SVCPOOL_CLOSING /* svc_exit called */ }; typedef SVCTHREAD *pool_assign_fn(SVCTHREAD *, struct svc_req *); typedef void pool_done_fn(SVCTHREAD *, struct svc_req *); typedef struct __rpc_svcpool { struct mtx sp_lock; /* protect the transport lists */ const char *sp_name; /* pool name (e.g. "nfsd", "NLM" */ enum svcpool_state sp_state; /* current pool state */ struct proc *sp_proc; /* process which is in svc_run */ struct svcxprt_list sp_xlist; /* all transports in the pool */ struct svcxprt_list sp_active; /* transports needing service */ struct svc_callout_list sp_callouts; /* (prog,vers)->dispatch list */ struct svcthread_list sp_threads; /* service threads */ struct svcthread_list sp_idlethreads; /* idle service threads */ int sp_minthreads; /* minimum service thread count */ int sp_maxthreads; /* maximum service thread count */ int sp_threadcount; /* current service thread count */ time_t sp_lastcreatetime; /* when we last started a thread */ time_t sp_lastidlecheck; /* when we last checked idle transports */ /* * Hooks to allow an application to control request to thread * placement. */ pool_assign_fn *sp_assign; pool_done_fn *sp_done; /* * These variables are used to put an upper bound on the * amount of memory used by RPC requests which are queued * waiting for execution. */ unsigned int sp_space_low; unsigned int sp_space_high; unsigned int sp_space_used; unsigned int sp_space_used_highest; bool_t sp_space_throttled; int sp_space_throttle_count; struct replay_cache *sp_rcache; /* optional replay cache */ struct sysctl_ctx_list sp_sysctl; } SVCPOOL; #else /* * Service request */ struct svc_req { uint32_t rq_prog; /* service program number */ uint32_t rq_vers; /* service protocol version */ uint32_t rq_proc; /* the desired procedure */ struct opaque_auth rq_cred; /* raw creds from the wire */ void *rq_clntcred; /* read only cooked cred */ SVCXPRT *rq_xprt; /* associated transport */ }; /* * Approved way of getting address of caller */ #define svc_getrpccaller(x) (&(x)->xp_rtaddr) #endif /* * Operations defined on an SVCXPRT handle * * SVCXPRT *xprt; * struct rpc_msg *msg; * xdrproc_t xargs; * void * argsp; */ #ifdef _KERNEL #define SVC_ACQUIRE(xprt) \ refcount_acquire(&(xprt)->xp_refs) #define SVC_RELEASE(xprt) \ if (refcount_release(&(xprt)->xp_refs)) \ SVC_DESTROY(xprt) #define SVC_RECV(xprt, msg, addr, args) \ (*(xprt)->xp_ops->xp_recv)((xprt), (msg), (addr), (args)) #define SVC_STAT(xprt) \ (*(xprt)->xp_ops->xp_stat)(xprt) #define SVC_REPLY(xprt, msg, addr, m) \ (*(xprt)->xp_ops->xp_reply) ((xprt), (msg), (addr), (m)) #define SVC_DESTROY(xprt) \ (*(xprt)->xp_ops->xp_destroy)(xprt) #define SVC_CONTROL(xprt, rq, in) \ (*(xprt)->xp_ops->xp_control)((xprt), (rq), (in)) #else #define SVC_RECV(xprt, msg) \ (*(xprt)->xp_ops->xp_recv)((xprt), (msg)) #define svc_recv(xprt, msg) \ (*(xprt)->xp_ops->xp_recv)((xprt), (msg)) #define SVC_STAT(xprt) \ (*(xprt)->xp_ops->xp_stat)(xprt) #define svc_stat(xprt) \ (*(xprt)->xp_ops->xp_stat)(xprt) #define SVC_GETARGS(xprt, xargs, argsp) \ (*(xprt)->xp_ops->xp_getargs)((xprt), (xargs), (argsp)) #define svc_getargs(xprt, xargs, argsp) \ (*(xprt)->xp_ops->xp_getargs)((xprt), (xargs), (argsp)) #define SVC_REPLY(xprt, msg) \ (*(xprt)->xp_ops->xp_reply) ((xprt), (msg)) #define svc_reply(xprt, msg) \ (*(xprt)->xp_ops->xp_reply) ((xprt), (msg)) #define SVC_FREEARGS(xprt, xargs, argsp) \ (*(xprt)->xp_ops->xp_freeargs)((xprt), (xargs), (argsp)) #define svc_freeargs(xprt, xargs, argsp) \ (*(xprt)->xp_ops->xp_freeargs)((xprt), (xargs), (argsp)) #define SVC_DESTROY(xprt) \ (*(xprt)->xp_ops->xp_destroy)(xprt) #define svc_destroy(xprt) \ (*(xprt)->xp_ops->xp_destroy)(xprt) #define SVC_CONTROL(xprt, rq, in) \ (*(xprt)->xp_ops2->xp_control)((xprt), (rq), (in)) #endif #define SVC_EXT(xprt) \ ((SVCXPRT_EXT *) xprt->xp_p3) #define SVC_AUTH(xprt) \ (SVC_EXT(xprt)->xp_auth) /* * Operations defined on an SVCAUTH handle */ #ifdef _KERNEL #define SVCAUTH_WRAP(auth, mp) \ ((auth)->svc_ah_ops->svc_ah_wrap(auth, mp)) #define SVCAUTH_UNWRAP(auth, mp) \ ((auth)->svc_ah_ops->svc_ah_unwrap(auth, mp)) #define SVCAUTH_RELEASE(auth) \ ((auth)->svc_ah_ops->svc_ah_release(auth)) #else #define SVCAUTH_WRAP(auth, xdrs, xfunc, xwhere) \ ((auth)->svc_ah_ops->svc_ah_wrap(auth, xdrs, xfunc, xwhere)) #define SVCAUTH_UNWRAP(auth, xdrs, xfunc, xwhere) \ ((auth)->svc_ah_ops->svc_ah_unwrap(auth, xdrs, xfunc, xwhere)) #endif /* * Service registration * * svc_reg(xprt, prog, vers, dispatch, nconf) * const SVCXPRT *xprt; * const rpcprog_t prog; * const rpcvers_t vers; * const void (*dispatch)(); * const struct netconfig *nconf; */ __BEGIN_DECLS extern bool_t svc_reg(SVCXPRT *, const rpcprog_t, const rpcvers_t, void (*)(struct svc_req *, SVCXPRT *), const struct netconfig *); __END_DECLS /* * Service un-registration * * svc_unreg(prog, vers) * const rpcprog_t prog; * const rpcvers_t vers; */ __BEGIN_DECLS #ifdef _KERNEL extern void svc_unreg(SVCPOOL *, const rpcprog_t, const rpcvers_t); #else extern void svc_unreg(const rpcprog_t, const rpcvers_t); #endif __END_DECLS /* * Transport registration. * * xprt_register(xprt) * SVCXPRT *xprt; */ __BEGIN_DECLS extern void xprt_register(SVCXPRT *); __END_DECLS /* * Transport un-register * * xprt_unregister(xprt) * SVCXPRT *xprt; */ __BEGIN_DECLS extern void xprt_unregister(SVCXPRT *); extern void __xprt_unregister_unlocked(SVCXPRT *); __END_DECLS #ifdef _KERNEL /* * Called when a transport has pending requests. */ __BEGIN_DECLS extern void xprt_active(SVCXPRT *); extern void xprt_inactive(SVCXPRT *); extern void xprt_inactive_locked(SVCXPRT *); __END_DECLS #endif /* * When the service routine is called, it must first check to see if it * knows about the procedure; if not, it should call svcerr_noproc * and return. If so, it should deserialize its arguments via * SVC_GETARGS (defined above). If the deserialization does not work, * svcerr_decode should be called followed by a return. Successful * decoding of the arguments should be followed the execution of the * procedure's code and a call to svc_sendreply. * * Also, if the service refuses to execute the procedure due to too- * weak authentication parameters, svcerr_weakauth should be called. * Note: do not confuse access-control failure with weak authentication! * * NB: In pure implementations of rpc, the caller always waits for a reply * msg. This message is sent when svc_sendreply is called. * Therefore pure service implementations should always call * svc_sendreply even if the function logically returns void; use * xdr.h - xdr_void for the xdr routine. HOWEVER, tcp based rpc allows * for the abuse of pure rpc via batched calling or pipelining. In the * case of a batched call, svc_sendreply should NOT be called since * this would send a return message, which is what batching tries to avoid. * It is the service/protocol writer's responsibility to know which calls are * batched and which are not. Warning: responding to batch calls may * deadlock the caller and server processes! */ __BEGIN_DECLS #ifdef _KERNEL extern bool_t svc_sendreply(struct svc_req *, xdrproc_t, void *); extern bool_t svc_sendreply_mbuf(struct svc_req *, struct mbuf *); extern void svcerr_decode(struct svc_req *); extern void svcerr_weakauth(struct svc_req *); extern void svcerr_noproc(struct svc_req *); extern void svcerr_progvers(struct svc_req *, rpcvers_t, rpcvers_t); extern void svcerr_auth(struct svc_req *, enum auth_stat); extern void svcerr_noprog(struct svc_req *); extern void svcerr_systemerr(struct svc_req *); #else extern bool_t svc_sendreply(SVCXPRT *, xdrproc_t, void *); extern void svcerr_decode(SVCXPRT *); extern void svcerr_weakauth(SVCXPRT *); extern void svcerr_noproc(SVCXPRT *); extern void svcerr_progvers(SVCXPRT *, rpcvers_t, rpcvers_t); extern void svcerr_auth(SVCXPRT *, enum auth_stat); extern void svcerr_noprog(SVCXPRT *); extern void svcerr_systemerr(SVCXPRT *); #endif extern int rpc_reg(rpcprog_t, rpcvers_t, rpcproc_t, char *(*)(char *), xdrproc_t, xdrproc_t, char *); __END_DECLS /* * Lowest level dispatching -OR- who owns this process anyway. * Somebody has to wait for incoming requests and then call the correct * service routine. The routine svc_run does infinite waiting; i.e., * svc_run never returns. * Since another (co-existant) package may wish to selectively wait for * incoming calls or other events outside of the rpc architecture, the * routine svc_getreq is provided. It must be passed readfds, the * "in-place" results of a select system call (see select, section 2). */ #ifndef _KERNEL /* * Global keeper of rpc service descriptors in use * dynamic; must be inspected before each call to select */ extern int svc_maxfd; #ifdef FD_SETSIZE extern fd_set svc_fdset; #define svc_fds svc_fdset.fds_bits[0] /* compatibility */ #else extern int svc_fds; #endif /* def FD_SETSIZE */ #endif /* * a small program implemented by the svc_rpc implementation itself; * also see clnt.h for protocol numbers. */ __BEGIN_DECLS extern void rpctest_service(void); __END_DECLS __BEGIN_DECLS extern SVCXPRT *svc_xprt_alloc(void); extern void svc_xprt_free(SVCXPRT *); #ifndef _KERNEL extern void svc_getreq(int); extern void svc_getreqset(fd_set *); extern void svc_getreq_common(int); struct pollfd; extern void svc_getreq_poll(struct pollfd *, int); extern void svc_run(void); extern void svc_exit(void); #else extern void svc_run(SVCPOOL *); extern void svc_exit(SVCPOOL *); extern bool_t svc_getargs(struct svc_req *, xdrproc_t, void *); extern bool_t svc_freeargs(struct svc_req *, xdrproc_t, void *); extern void svc_freereq(struct svc_req *); #endif __END_DECLS /* * Socket to use on svcxxx_create call to get default socket */ #define RPC_ANYSOCK -1 #define RPC_ANYFD RPC_ANYSOCK /* * These are the existing service side transport implementations */ __BEGIN_DECLS #ifdef _KERNEL /* * Create a new service pool. */ extern SVCPOOL* svcpool_create(const char *name, struct sysctl_oid_list *sysctl_base); /* * Destroy a service pool, including all registered transports. */ extern void svcpool_destroy(SVCPOOL *pool); /* * Transport independent svc_create routine. */ extern int svc_create(SVCPOOL *, void (*)(struct svc_req *, SVCXPRT *), const rpcprog_t, const rpcvers_t, const char *); /* * void (*dispatch)(); -- dispatch routine * const rpcprog_t prognum; -- program number * const rpcvers_t versnum; -- version number * const char *nettype; -- network type */ /* * Generic server creation routine. It takes a netconfig structure * instead of a nettype. */ extern SVCXPRT *svc_tp_create(SVCPOOL *, void (*)(struct svc_req *, SVCXPRT *), const rpcprog_t, const rpcvers_t, const char *uaddr, const struct netconfig *); /* * void (*dispatch)(); -- dispatch routine * const rpcprog_t prognum; -- program number * const rpcvers_t versnum; -- version number * const char *uaddr; -- universal address of service * const struct netconfig *nconf; -- netconfig structure */ extern SVCXPRT *svc_dg_create(SVCPOOL *, struct socket *, const size_t, const size_t); /* * struct socket *; -- open connection * const size_t sendsize; -- max send size * const size_t recvsize; -- max recv size */ extern SVCXPRT *svc_vc_create(SVCPOOL *, struct socket *, const size_t, const size_t); /* * struct socket *; -- open connection * const size_t sendsize; -- max send size * const size_t recvsize; -- max recv size */ /* * Generic TLI create routine */ extern SVCXPRT *svc_tli_create(SVCPOOL *, struct socket *, const struct netconfig *, const struct t_bind *, const size_t, const size_t); /* * struct socket * so; -- connection end point * const struct netconfig *nconf; -- netconfig structure for network * const struct t_bind *bindaddr; -- local bind address * const size_t sendsz; -- max sendsize * const size_t recvsz; -- max recvsize */ #else /* !_KERNEL */ /* * Transport independent svc_create routine. */ extern int svc_create(void (*)(struct svc_req *, SVCXPRT *), const rpcprog_t, const rpcvers_t, const char *); /* * void (*dispatch)(); -- dispatch routine * const rpcprog_t prognum; -- program number * const rpcvers_t versnum; -- version number * const char *nettype; -- network type */ /* * Generic server creation routine. It takes a netconfig structure * instead of a nettype. */ extern SVCXPRT *svc_tp_create(void (*)(struct svc_req *, SVCXPRT *), const rpcprog_t, const rpcvers_t, const struct netconfig *); /* * void (*dispatch)(); -- dispatch routine * const rpcprog_t prognum; -- program number * const rpcvers_t versnum; -- version number * const struct netconfig *nconf; -- netconfig structure */ /* * Generic TLI create routine */ extern SVCXPRT *svc_tli_create(const int, const struct netconfig *, const struct t_bind *, const u_int, const u_int); /* * const int fd; -- connection end point * const struct netconfig *nconf; -- netconfig structure for network * const struct t_bind *bindaddr; -- local bind address * const u_int sendsz; -- max sendsize * const u_int recvsz; -- max recvsize */ /* * Connectionless and connectionful create routines */ extern SVCXPRT *svc_vc_create(const int, const u_int, const u_int); /* * const int fd; -- open connection end point * const u_int sendsize; -- max send size * const u_int recvsize; -- max recv size */ /* * Added for compatibility to old rpc 4.0. Obsoleted by svc_vc_create(). */ extern SVCXPRT *svcunix_create(int, u_int, u_int, char *); extern SVCXPRT *svc_dg_create(const int, const u_int, const u_int); /* * const int fd; -- open connection * const u_int sendsize; -- max send size * const u_int recvsize; -- max recv size */ /* * the routine takes any *open* connection * descriptor as its first input and is used for open connections. */ extern SVCXPRT *svc_fd_create(const int, const u_int, const u_int); /* * const int fd; -- open connection end point * const u_int sendsize; -- max send size * const u_int recvsize; -- max recv size */ /* * Added for compatibility to old rpc 4.0. Obsoleted by svc_fd_create(). */ extern SVCXPRT *svcunixfd_create(int, u_int, u_int); /* * Memory based rpc (for speed check and testing) */ extern SVCXPRT *svc_raw_create(void); /* * svc_dg_enable_cache() enables the cache on dg transports. */ int svc_dg_enablecache(SVCXPRT *, const u_int); int __rpc_get_local_uid(SVCXPRT *_transp, uid_t *_uid); #endif /* !_KERNEL */ __END_DECLS #ifndef _KERNEL /* for backward compatibility */ #include <rpc/svc_soc.h> #endif #endif /* !_RPC_SVC_H */