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/*
* Mach Operating System
* Copyright (c) 1991,1990,1989 Carnegie Mellon University.
* Copyright (c) 1993,1994 The University of Utah and
* the Computer Systems Laboratory (CSL).
* All rights reserved.
*
* Permission to use, copy, modify and distribute this software and its
* documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON, THE UNIVERSITY OF UTAH AND CSL ALLOW FREE USE OF
* THIS SOFTWARE IN ITS "AS IS" CONDITION, AND DISCLAIM ANY LIABILITY
* OF ANY KIND FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF
* THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie Mellon
* the rights to redistribute these changes.
*/
/*
*/
/*
* File: ipc/ipc_port.h
* Author: Rich Draves
* Date: 1989
*
* Definitions for ports.
*/
#ifndef _IPC_IPC_PORT_H_
#define _IPC_IPC_PORT_H_
#include <mach/boolean.h>
#include <mach/kern_return.h>
#include <mach/port.h>
#include <kern/lock.h>
#include <kern/macros.h>
#include <kern/ipc_kobject.h>
#include <ipc/ipc_mqueue.h>
#include <ipc/ipc_table.h>
#include <ipc/ipc_thread.h>
#include <ipc/ipc_object.h>
#include "ipc_target.h"
#include <mach/rpc.h>
/*
* A receive right (port) can be in four states:
* 1) dead (not active, ip_timestamp has death time)
* 2) in a space (ip_receiver_name != 0, ip_receiver points
* to the space but doesn't hold a ref for it)
* 3) in transit (ip_receiver_name == 0, ip_destination points
* to the destination port and holds a ref for it)
* 4) in limbo (ip_receiver_name == 0, ip_destination == IP_NULL)
*
* If the port is active, and ip_receiver points to some space,
* then ip_receiver_name != 0, and that space holds receive rights.
* If the port is not active, then ip_timestamp contains a timestamp
* taken when the port was destroyed.
*/
typedef unsigned int ipc_port_timestamp_t;
struct ipc_port {
struct ipc_target ip_target;
/* This points to the ip_target above if this port isn't on a port set;
otherwise it points to the port set's ips_target. */
struct ipc_target *ip_cur_target;
union {
struct ipc_space *receiver;
struct ipc_port *destination;
ipc_port_timestamp_t timestamp;
} data;
ipc_kobject_t ip_kobject;
mach_port_mscount_t ip_mscount;
mach_port_rights_t ip_srights;
mach_port_rights_t ip_sorights;
struct ipc_port *ip_nsrequest;
struct ipc_port *ip_pdrequest;
struct ipc_port_request *ip_dnrequests;
struct ipc_pset *ip_pset;
mach_port_seqno_t ip_seqno; /* locked by message queue */
mach_port_msgcount_t ip_msgcount;
mach_port_msgcount_t ip_qlimit;
struct ipc_thread_queue ip_blocked;
unsigned long ip_protected_payload;
};
#define ip_object ip_target.ipt_object
#define ip_receiver_name ip_target.ipt_name
#define ip_messages ip_target.ipt_messages
#define ip_references ip_object.io_references
#define ip_bits ip_object.io_bits
#define ip_receiver data.receiver
#define ip_destination data.destination
#define ip_timestamp data.timestamp
#define IP_NULL ((ipc_port_t) IO_NULL)
#define IP_DEAD ((ipc_port_t) IO_DEAD)
#define IP_VALID(port) IO_VALID(&(port)->ip_object)
#define ip_active(port) io_active(&(port)->ip_object)
#define ip_lock_init(port) io_lock_init(&(port)->ip_object)
#define ip_lock(port) io_lock(&(port)->ip_object)
#define ip_lock_try(port) io_lock_try(&(port)->ip_object)
#define ip_unlock(port) io_unlock(&(port)->ip_object)
#define ip_check_unlock(port) io_check_unlock(&(port)->ip_object)
#define ip_reference(port) io_reference(&(port)->ip_object)
#define ip_release(port) io_release(&(port)->ip_object)
#define ip_alloc() ((ipc_port_t) io_alloc(IOT_PORT))
#define ip_free(port) io_free(IOT_PORT, &(port)->ip_object)
#define ip_kotype(port) io_kotype(&(port)->ip_object)
typedef ipc_table_index_t ipc_port_request_index_t;
typedef struct ipc_port_request {
union {
struct ipc_port *port;
ipc_port_request_index_t index;
} notify;
union {
mach_port_t name;
struct ipc_table_size *size;
} name;
} *ipc_port_request_t;
#define ipr_next notify.index
#define ipr_size name.size
#define ipr_soright notify.port
#define ipr_name name.name
#define IPR_NULL ((ipc_port_request_t) 0)
/*
* Taking the ipc_port_multiple lock grants the privilege
* to lock multiple ports at once. No ports must locked
* when it is taken.
*/
decl_simple_lock_data(extern, ipc_port_multiple_lock_data)
#define ipc_port_multiple_lock_init() \
simple_lock_init(&ipc_port_multiple_lock_data)
#define ipc_port_multiple_lock() \
simple_lock(&ipc_port_multiple_lock_data)
#define ipc_port_multiple_unlock() \
simple_unlock(&ipc_port_multiple_lock_data)
/*
* The port timestamp facility provides timestamps
* for port destruction. It is used to serialize
* mach_port_names with port death.
*/
decl_simple_lock_data(extern, ipc_port_timestamp_lock_data)
extern ipc_port_timestamp_t ipc_port_timestamp_data;
#define ipc_port_timestamp_lock_init() \
simple_lock_init(&ipc_port_timestamp_lock_data)
#define ipc_port_timestamp_lock() \
simple_lock(&ipc_port_timestamp_lock_data)
#define ipc_port_timestamp_unlock() \
simple_unlock(&ipc_port_timestamp_lock_data)
extern ipc_port_timestamp_t
ipc_port_timestamp(void);
/*
* Compares two timestamps, and returns TRUE if one
* happened before two. Note that this formulation
* works when the timestamp wraps around at 2^32,
* as long as one and two aren't too far apart.
*/
#define IP_TIMESTAMP_ORDER(one, two) ((int) ((one) - (two)) < 0)
#define ipc_port_translate_receive(space, name, portp) \
ipc_object_translate((space), (name), \
MACH_PORT_RIGHT_RECEIVE, \
(ipc_object_t *) (portp))
#define ipc_port_translate_send(space, name, portp) \
ipc_object_translate((space), (name), \
MACH_PORT_RIGHT_SEND, \
(ipc_object_t *) (portp))
extern kern_return_t
ipc_port_dnrequest(ipc_port_t, mach_port_t, ipc_port_t,
ipc_port_request_index_t *);
extern kern_return_t
ipc_port_dngrow(ipc_port_t);
extern ipc_port_t
ipc_port_dncancel(ipc_port_t, mach_port_t, ipc_port_request_index_t);
#define ipc_port_dnrename(port, index, oname, nname) \
MACRO_BEGIN \
ipc_port_request_t ipr, table; \
\
assert(ip_active(port)); \
\
table = port->ip_dnrequests; \
assert(table != IPR_NULL); \
\
ipr = &table[index]; \
assert(ipr->ipr_name == oname); \
\
ipr->ipr_name = nname; \
MACRO_END
/* Make a port-deleted request */
extern void ipc_port_pdrequest(
ipc_port_t port,
ipc_port_t notify,
ipc_port_t *previousp);
/* Make a no-senders request */
extern void ipc_port_nsrequest(
ipc_port_t port,
mach_port_mscount_t sync,
ipc_port_t notify,
ipc_port_t *previousp);
/* Change a port's queue limit */
extern void ipc_port_set_qlimit(
ipc_port_t port,
mach_port_msgcount_t qlimit);
#define ipc_port_set_mscount(port, mscount) \
MACRO_BEGIN \
assert(ip_active(port)); \
\
(port)->ip_mscount = (mscount); \
MACRO_END
extern struct ipc_mqueue *
ipc_port_lock_mqueue(ipc_port_t);
extern void
ipc_port_set_seqno(ipc_port_t, mach_port_seqno_t);
extern void
ipc_port_set_protected_payload(ipc_port_t, unsigned long);
extern void
ipc_port_clear_protected_payload(ipc_port_t);
extern void
ipc_port_clear_receiver(ipc_port_t);
extern void
ipc_port_init(ipc_port_t, ipc_space_t, mach_port_t);
extern kern_return_t
ipc_port_alloc(ipc_space_t, mach_port_t *, ipc_port_t *);
extern kern_return_t
ipc_port_alloc_name(ipc_space_t, mach_port_t, ipc_port_t *);
extern void
ipc_port_destroy(ipc_port_t);
extern boolean_t
ipc_port_check_circularity(ipc_port_t, ipc_port_t);
extern ipc_port_t
ipc_port_lookup_notify(ipc_space_t, mach_port_t);
extern ipc_port_t
ipc_port_make_send(ipc_port_t);
extern ipc_port_t
ipc_port_copy_send(ipc_port_t);
extern mach_port_t
ipc_port_copyout_send(ipc_port_t, ipc_space_t);
extern void
ipc_port_release_send(ipc_port_t);
extern ipc_port_t
ipc_port_make_sonce(ipc_port_t);
extern void
ipc_port_release_sonce(ipc_port_t);
extern void
ipc_port_release_receive(ipc_port_t);
extern ipc_port_t
ipc_port_alloc_special(ipc_space_t);
extern void
ipc_port_dealloc_special(ipc_port_t, ipc_space_t);
#define ipc_port_alloc_kernel() \
ipc_port_alloc_special(ipc_space_kernel)
#define ipc_port_dealloc_kernel(port) \
ipc_port_dealloc_special((port), ipc_space_kernel)
#define ipc_port_alloc_reply() \
ipc_port_alloc_special(ipc_space_reply)
#define ipc_port_dealloc_reply(port) \
ipc_port_dealloc_special((port), ipc_space_reply)
#define ipc_port_reference(port) \
ipc_object_reference(&(port)->ip_object)
#define ipc_port_release(port) \
ipc_object_release(&(port)->ip_object)
static inline boolean_t
ipc_port_flag_protected_payload(const struct ipc_port *port)
{
return !! (port->ip_target.ipt_object.io_bits
& IO_BITS_PROTECTED_PAYLOAD);
}
static inline void
ipc_port_flag_protected_payload_set(struct ipc_port *port)
{
port->ip_target.ipt_object.io_bits |= IO_BITS_PROTECTED_PAYLOAD;
}
static inline void
ipc_port_flag_protected_payload_clear(struct ipc_port *port)
{
port->ip_target.ipt_object.io_bits &= ~IO_BITS_PROTECTED_PAYLOAD;
}
#endif /* _IPC_IPC_PORT_H_ */
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