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/* Definitions for multi-threaded pager library
Copyright (C) 1994, 1995, 1996 Free Software Foundation, Inc.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2, or (at
your option) any later version.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
#ifndef _HURD_PAGER_
#define _HURD_PAGER_
#include <hurd/ports.h>
/* This declaration exists to place struct user_pager_info in the proper
scope. */
struct user_pager_info;
/* This de-muxer function is for use within libports_demuxer. */
/* INP is a message we've received; OUTP will be filled in with
a reply message. */
int pager_demuxer (mach_msg_header_t *inp,
mach_msg_header_t *outp);
/* Create a new pager. The pager will have a port created for it
(using libports, in BUCKET) and will be immediately ready
to receive requests. U_PAGER will be provided to later calls to
pager_find_address. The pager will have one user reference
created. MAY_CACHE and COPY_STRATEGY are the original values of
those attributes as for memory_object_ready. Users may create
references to pagers by use of the relevant ports library
functions. */
struct pager *
pager_create (struct user_pager_info *u_pager,
struct port_bucket *bucket,
boolean_t may_cache,
memory_object_copy_strategy_t copy_strategy);
/* Return the user_pager_info struct associated with a pager. */
struct user_pager_info *
pager_get_upi (struct pager *p);
/* Sync data from pager PAGER to backing store; wait for
all the writes to complete iff WAIT is set. */
void
pager_sync (struct pager *pager,
int wait);
/* Sync some data (starting at START, for LEN bytes) from pager PAGER
to backing store. Wait for all the writes to complete iff WAIT is
set. */
void
pager_sync_some (struct pager *pager,
vm_address_t start,
vm_size_t len,
int wait);
/* Flush data from the kernel for pager PAGER and force any pending
delayed copies. Wait for all pages to be flushed iff WAIT is set. */
void
pager_flush (struct pager *pager,
int wait);
/* Flush some data (starting at START, for LEN bytes) for pager PAGER
from the kernel. Wait for all pages to be flushed iff WAIT is set. */
void
pager_flush_some (struct pager *pager,
vm_address_t start,
vm_size_t len,
int wait);
/* Flush data from the kernel for pager PAGER and force any pending
delayed copies. Wait for all pages to be flushed iff WAIT is set.
Have the kernel write back modifications. */
void
pager_return (struct pager *pager,
int wait);
/* Flush some data (starting at START, for LEN bytes) for pager PAGER
from the kernel. Wait for all pages to be flushed iff WAIT is set.
Have the kernel write back modifications. */
void
pager_return_some (struct pager *pager,
vm_address_t start,
vm_size_t len,
int wait);
/* Offer a page of data to the kernel. If PRECIOUS is set, then this
page will be paged out at some future point, otherwise it might be
dropped by the kernel. If the page is currently in core, the
kernel might ignore this call. */
void
pager_offer_page (struct pager *pager,
int precious,
vm_offset_t page,
vm_address_t buf);
/* Change the attributes of the memory object underlying pager PAGER.
Args MAY_CACHE and COPY_STRATEGY are as for
memory_object_change_atributes. Wait for the kernel to report completion
off WAIT is set.*/
void
pager_change_attributes (struct pager *pager,
boolean_t may_cache,
memory_object_copy_strategy_t copy_strategy,
int wait);
/* Return the port (receive right) for requests to the pager. It is
absolutely necessary that a new send right be created from this
receive right. */
mach_port_t
pager_get_port (struct pager *pager);
/* Force termination of a pager. After this returns, no
more paging requests on the pager will be honored, and the
pager will be deallocated. (The actual deallocation might
occur asynchronously if there are currently outstanding paging
requests that will complete first.) */
void
pager_shutdown (struct pager *pager);
/* Return the error code of the last page error for pager P at address ADDR;
this will be deleted when the kernel interface is fixed. */
error_t
pager_get_error (struct pager *p, vm_address_t addr);
/* Try to copy *SIZE bytes between the region OTHER points to
and the region at OFFSET in the pager indicated by PAGER and MEMOBJ.
If PROT is VM_PROT_READ, copying is from the pager to OTHER;
if PROT contains VM_PROT_WRITE, copying is from OTHER into the pager.
*SIZE is always filled in the actual number of bytes successfully copied.
Returns an error code if the pager-backed memory faults;
if there is no fault, returns 0 and *SIZE will be unchanged. */
error_t
pager_memcpy (struct pager *pager, memory_object_t memobj,
vm_offset_t offset, void *other, size_t *size,
vm_prot_t prot);
/* The user must define this function. For pager PAGER, read one
page from offset PAGE. Set *BUF to be the address of the page,
and set *WRITE_LOCK if the page must be provided read-only.
The only permissable error returns are EIO, EDQUOT, and ENOSPC. */
error_t
pager_read_page (struct user_pager_info *pager,
vm_offset_t page,
vm_address_t *buf,
int *write_lock);
/* The user must define this function. For pager PAGER, synchronously
write one page from BUF to offset PAGE. In addition, vm_deallocate
(or equivalent) BUF. The only permissable error returns are EIO,
EDQUOT, and ENOSPC. */
error_t
pager_write_page (struct user_pager_info *pager,
vm_offset_t page,
vm_address_t buf);
/* The user must define this function. A page should be made writable. */
error_t
pager_unlock_page (struct user_pager_info *pager,
vm_offset_t address);
/* The user must define this function. It should report back (in
*OFFSET and *SIZE the minimum valid address the pager will accept
and the size of the object. */
error_t
pager_report_extent (struct user_pager_info *pager,
vm_address_t *offset,
vm_size_t *size);
/* The user must define this function. This is called when a pager is
being deallocated after all extant send rights have been destroyed. */
void
pager_clear_user_data (struct user_pager_info *pager);
/* The use must define this function. This will be called when the ports
library wants to drop weak references. The pager library creates no
weak references itself. If the user doesn't either, then it's OK for
this function to do nothing. */
void
pager_dropweak (struct user_pager_info *p);
#endif
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