912 lines
25 KiB
Groff
912 lines
25 KiB
Groff
.\" $NetBSD: uvm.9,v 1.18 2001/04/06 15:53:43 wiz Exp $
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.\"
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.\" Copyright (c) 1998 Matthew R. Green
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.\" All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that the following conditions
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.\" are met:
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.\" 1. Redistributions of source code must retain the above copyright
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.\" notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\" 3. The name of the author may not be used to endorse or promote products
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.\" derived from this software without specific prior written permission.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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.\" IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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.\" OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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.\" IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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.\" INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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.\" BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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.\" LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
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.\" AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
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.\" OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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.\" SUCH DAMAGE.
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.\"
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.\" XXX this manual sets nS to 1 or 0 in the description, to obtain
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.\" synopsis-like function prototypes. any better way?
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.\"
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.Dd March 26, 2000
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.Dt UVM 9
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.Os
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.Sh NAME
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.Nm uvm
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.Nd virtual memory system external interface
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.Sh SYNOPSIS
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.Fd #include <sys/param.h>
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.Fd #include <uvm/uvm.h>
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.Sh DESCRIPTION
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The UVM virtual memory system manages access to the computer's memory
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resources. User processes and the kernel access these resources through
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UVM's external interface. UVM's external interface includes functions that:
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.Pp
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.Bl -hyphen -compact
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.It
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initialise UVM sub-systems
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.It
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manage virtual address spaces
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.It
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resolve page faults
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.It
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memory map files and devices
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.It
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perform uio-based I/O to virtual memory
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.It
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allocate and free kernel virtual memory
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.It
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allocate and free physical memory
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.El
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.Pp
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In addition to exporting these services, UVM has two kernel-level processes:
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pagedaemon and swapper. The pagedaemon process sleeps until physical memory
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becomes scarce. When that happens, pagedaemon is awoken. It scans physical
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memory, paging out and freeing memory that has not been recently used. The
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swapper process swaps in runnable processes that are currently swapped out,
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if there is room.
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.Pp
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There are also several miscellaneous functions.
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.Sh INITIALISATION
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.nr nS 1
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.Pp
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.Ft void
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.Fn uvm_init
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.Ft void
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.Fn uvm_init_limits "struct proc *p"
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.Ft void
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.Fn uvm_setpagesize
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.Ft void
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.Fn uvm_swap_init
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.nr nS 0
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.Pp
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.Fn uvm_init
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sets up the UVM system at system boot time, after the
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copyright has been printed. It initialises
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global state, the page, map, kernel virtual memory state,
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machine-dependent physical map, kernel memory allocator,
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pager and anonymous memory sub-systems, and then enables
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paging of kernel objects.
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.Pp
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.Fn uvm_init_limits
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initialises process limits for the named process. This is for use by
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the system startup for process zero, before any other processes are
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created.
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.Pp
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.Fn uvm_setpagesize
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initialises the uvmexp members pagesize (if not already done by
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machine-dependent code), pageshift and pagemask. It should be called by
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machine-dependent code early in the
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.Xr pmap_init 9
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call.
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.Pp
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.Fn uvm_swap_init
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initialises the swap sub-system.
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.Sh VIRTUAL ADDRESS SPACE MANAGEMENT
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.Pp
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.nr nS 1
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.Ft int
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.Fn uvm_map "vm_map_t map" "vaddr_t *startp" "vsize_t size" "struct uvm_object *uobj" "voff_t uoffset" "uvm_flag_t flags"
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.Ft int
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.Fn uvm_map_pageable "vm_map_t map" "vaddr_t start" "vaddr_t end" "boolean_t new_pageable"
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.Ft boolean_t
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.Fn uvm_map_checkprot "vm_map_t map" "vaddr_t start" "vaddr_t end" "vm_prot_t protection"
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.Ft int
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.Fn uvm_map_protect "vm_map_t map" "vaddr_t start" "vaddr_t end" "vm_prot_t new_prot" "boolean_t set_max"
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.Ft int
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.Fn uvm_deallocate "vm_map_t map" "vaddr_t start" "vsize_t size"
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.Ft struct vmspace *
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.Fn uvmspace_alloc "vaddr_t min" "vaddr_t max" "int pageable"
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.Ft void
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.Fn uvmspace_exec "struct proc *p"
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.Ft struct vmspace *
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.Fn uvmspace_fork "struct vmspace *vm"
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.Ft void
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.Fn uvmspace_free "struct vmspace *vm1"
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.Ft void
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.Fn uvmspace_share "struct proc *p1" "struct proc *p2"
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.Ft void
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.Fn uvmspace_unshare "struct proc *p"
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.nr nS 0
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.Pp
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.Fn uvm_map
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establishes a valid mapping in map
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.Fa map ,
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which must be unlocked. The new mapping has size
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.Fa size ,
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which must be in
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.Dv PAGE_SIZE
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units. The
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.Fa uobj
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and
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.Fa uoffset
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arguments can have four meanings. When
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.Fa uobj
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is
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.Dv NULL
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and
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.Fa uoffset
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is
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.Dv UVM_UNKNOWN_OFFSET ,
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.Fn uvm_map
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does not use the machine-dependant
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.Dv PMAP_PREFER
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function. If
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.Fa uoffset
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is any other value, it is used as the hint to
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.Dv PMAP_PREFER .
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When
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.Fa uobj
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is not
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.Dv NULL
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and
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.Fa uoffset
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is
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.Dv UVM_UNKNOWN_OFFSET ,
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.Fn uvm_map
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finds the offset based upon the virtual address, passed as
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.Fa startp .
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If
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.Fa uoffset
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is any other value, we are doing a normal mapping at this offset. The
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start address of the map will be returned in
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.Fa startp .
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.Pp
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.Fa flags
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passed to
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.Fn uvm_map
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are typically created using the
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.Fn UVM_MAPFLAG "vm_prot_t prot" "vm_prot_t maxprot" "vm_inherit_t inh" "int advice" "int flags"
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macro, which uses the following values.
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The
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.Fa prot
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and
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.Fa maxprot
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can take are:
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.Bd -literal
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#define UVM_PROT_MASK 0x07 /* protection mask */
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#define UVM_PROT_NONE 0x00 /* protection none */
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#define UVM_PROT_ALL 0x07 /* everything */
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#define UVM_PROT_READ 0x01 /* read */
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#define UVM_PROT_WRITE 0x02 /* write */
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#define UVM_PROT_EXEC 0x04 /* exec */
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#define UVM_PROT_R 0x01 /* read */
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#define UVM_PROT_W 0x02 /* write */
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#define UVM_PROT_RW 0x03 /* read-write */
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#define UVM_PROT_X 0x04 /* exec */
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#define UVM_PROT_RX 0x05 /* read-exec */
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#define UVM_PROT_WX 0x06 /* write-exec */
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#define UVM_PROT_RWX 0x07 /* read-write-exec */
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.Ed
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.Pp
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The values that
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.Fa inh
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can take are:
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.Bd -literal
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#define UVM_INH_MASK 0x30 /* inherit mask */
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#define UVM_INH_SHARE 0x00 /* "share" */
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#define UVM_INH_COPY 0x10 /* "copy" */
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#define UVM_INH_NONE 0x20 /* "none" */
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#define UVM_INH_DONATE 0x30 /* "donate" << not used */
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.Ed
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.Pp
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The values that
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.Fa advice
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can take are:
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.Bd -literal
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#define UVM_ADV_NORMAL 0x0 /* 'normal' */
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#define UVM_ADV_RANDOM 0x1 /* 'random' */
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#define UVM_ADV_SEQUENTIAL 0x2 /* 'sequential' */
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#define UVM_ADV_MASK 0x7 /* mask */
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.Ed
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.Pp
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The values that
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.Fa flags
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can take are:
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.Bd -literal
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#define UVM_FLAG_FIXED 0x010000 /* find space */
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#define UVM_FLAG_OVERLAY 0x020000 /* establish overlay */
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#define UVM_FLAG_NOMERGE 0x040000 /* don't merge map entries */
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#define UVM_FLAG_COPYONW 0x080000 /* set copy_on_write flag */
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#define UVM_FLAG_AMAPPAD 0x100000 /* for bss: pad amap to reduce malloc() */
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#define UVM_FLAG_TRYLOCK 0x200000 /* fail if we can not lock map */
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.Ed
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.Pp
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The
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.Dv UVM_MAPFLAG
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macro arguments can be combined with an or operator. There are
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several special purpose macros for checking protection combinations, e.g. the
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.Dv UVM_PROT_WX
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macro. There are also some additional macros to extract bits from
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the flags. The
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.Dv UVM_PROTECTION ,
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.Dv UVM_INHERIT ,
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.Dv UVM_MAXPROTECTION
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and
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.Dv UVM_ADVICE
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macros return the protection, inheritance, maximum protection and advice,
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respectively.
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.Fn uvm_map
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returns a standard UVM return value.
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.Pp
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.Fn uvm_map_pageable
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changes the pageability of the pages in the range from
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.Fa start
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to
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.Fa end
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in map
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.Fa map
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to
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.Fa new_pageable .
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.Fn uvm_map_pageable
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returns a standard UVM return value.
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.Pp
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.Fn uvm_map_checkprot
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checks the protection of the range from
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.Fa start
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to
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.Fa end
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in map
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.Fa map
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against
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.Fa protection .
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This returns either
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.Dv TRUE
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or
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.Dv FALSE .
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.Pp
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.Fn uvm_map_protect
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changes the protection
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.Fa start
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to
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.Fa end
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in map
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.Fa map
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to
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.Fa new_prot ,
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also setting the maximum protection to the region to
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.Fa new_prot
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if
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.Fa set_max
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is non-zero. This function returns a standard UVM return value.
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.Pp
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.Fn uvm_deallocate
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deallocates kernel memory in map
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.Fa map
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from address
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.Fa start
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to
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.Fa start + size .
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.Pp
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.Fn uvmspace_alloc
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allocates and returns a new address space, with ranges from
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.Fa min
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to
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.Fa max ,
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setting the pageability of the address space to
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.Fa pageable.
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.Pp
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.Fn uvmspace_exec
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either reuses the address space of process
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.Fa p
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if there are no other references to it, or creates
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a new one with
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.Fn uvmspace_alloc .
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.Pp
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.Fn uvmspace_fork
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creates and returns a new address space based upon the
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.Fa vm1
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address space, typically used when allocating an address space for a
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child process.
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.Pp
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.Fn uvmspace_free
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lowers the reference count on the address space
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.Fa vm ,
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freeing the data structures if there are no other references.
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.Pp
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.Fn uvmspace_share
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causes process
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.Pa p2
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to share the address space of
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.Fa p1 .
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.Pp
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.Fn uvmspace_unshare
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ensures that process
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.Fa p
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has its own, unshared address space, by creating a new one if
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necessary by calling
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.Fn uvmspace_fork .
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.Sh PAGE FAULT HANDLING
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.Pp
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.nr nS 1
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.Ft int
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.Fn uvm_fault "vm_map_t orig_map" "vaddr_t vaddr" "vm_fault_t fault_type" "vm_prot_t access_type"
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.nr nS 0
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.Pp
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.Fn uvm_fault
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is the main entry point for faults. It takes
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.Fa orig_map
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as the map the fault originated in, a
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.Fa vaddr
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offset into the map the fault occured,
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.Fa fault_type
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describing the type of fault, and
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.Fa access_type
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describing the type of access requested.
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.Fn uvm_fault
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returns a standard UVM return value.
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.Sh MEMORY MAPPING FILES AND DEVICES
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.Pp
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.nr nS 1
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.Ft struct uvm_object *
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.Fn uvn_attach "void *arg" "vm_prot_t accessprot"
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.Ft void
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.Fn uvm_vnp_setsize "struct vnode *vp" "u_quad_t newsize"
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.Ft void
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.Fn uvm_vnp_sync "struct mount *mp"
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.Ft void
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.Fn uvm_vnp_terminate "struct vnode *vp"
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.Ft boolean_t
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.Fn uvm_vnp_uncache "struct vnode *vp"
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.nr nS 0
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.Pp
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.Fn uvn_attach
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attaches a UVM object to vnode
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.Fa arg ,
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creating the object if necessary. The object is returned.
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.Pp
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.Fn uvm_vnp_setsize
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sets the size of vnode
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.Fa vp
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to
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.Fa newsize .
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Caller must hold a reference to the vnode. If the vnode shrinks, pages
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no longer used are discarded. This function will be removed when the
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filesystem and VM buffer caches are merged.
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.Pp
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.Fn uvm_vnp_sync
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flushes dirty vnodes from either the mount point passed in
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.Fa mp ,
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or all dirty vnodes if
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.Fa mp
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is
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.Dv NULL .
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This function will be removed when the filesystem and VM buffer caches
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are merged.
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.Pp
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.Fn uvm_vnp_terminate
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frees all VM resources allocated to vnode
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.Fa vp .
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If the vnode still has references, it will not be destroyed; however
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all future operations using this vnode will fail. This function will be
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removed when the filesystem and VM buffer caches are merged.
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.Pp
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.Fn uvm_vnp_uncache
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disables vnode
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.Fa vp
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from persisting when all references are freed. This function will be
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removed when the file-system and UVM caches are unified. Returns
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true if there is no active vnode.
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.Sh VIRTUAL MEMORY I/O
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.Pp
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.nr nS 1
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.Ft int
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.Fn uvm_io "vm_map_t map" "struct uio *uio"
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.nr nS 0
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.Pp
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.Fn uvm_io
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performs the I/O described in
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.Fa uio
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on the memory described in
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.Fa map .
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.Sh ALLOCATION OF KERNEL MEMORY
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.Pp
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.nr nS 1
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.Ft vaddr_t
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.Fn uvm_km_alloc "vm_map_t map" "vsize_t size"
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.Ft vaddr_t
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.Fn uvm_km_zalloc "vm_map_t map" "vsize_t size"
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.Ft vaddr_t
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.Fn uvm_km_alloc1 "vm_map_t map" "vsize_t size" "boolean_t zeroit"
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.Ft vaddr_t
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.Fn uvm_km_kmemalloc "vm_map_t map" "struct uvm_object *obj" "vsize_t size" "int flags"
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.Ft vaddr_t
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.Fn uvm_km_valloc "vm_map_t map" "vsize_t size"
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.Ft vaddr_t
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.Fn uvm_km_valloc_wait "vm_map_t map" "vsize_t size"
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.Ft struct vm_map *
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.Fn uvm_km_suballoc "vm_map_t map" "vaddr_t *min" "vaddr_t *max " "vsize_t size" "boolean_t pageable" "boolean_t fixed" "vm_map_t submap"
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.Ft void
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.Fn uvm_km_free "vm_map_t map" "vaddr_t addr" "vsize_t size"
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.Ft void
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.Fn uvm_km_free_wakeup "vm_map_t map" "vaddr_t addr" "vsize_t size"
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.nr nS 0
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.Pp
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.Fn uvm_km_alloc
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and
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.Fn uvm_km_zalloc
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allocate
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.Fa size
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bytes of wired kernel memory in map
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.Fa map .
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In addition to allocation,
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.Fn uvm_km_zalloc
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zeros the memory. Both of these functions are defined as macros in
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terms of
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.Fn uvm_km_alloc1 ,
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and should almost always be used in preference to
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.Fn uvm_km_alloc1 .
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.Pp
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.Fn uvm_km_alloc1
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allocates and returns
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.Fa size
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bytes of wired memory in the kernel map, zeroing the memory if the
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.Fa zeroit
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argument is non-zero.
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.Pp
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.Fn uvm_km_kmemalloc
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allocates and returns
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.Fa size
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bytes of wired kernel memory into
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.Fa obj .
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The flags can be any of:
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.Bd -literal
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#define UVM_KMF_NOWAIT 0x1 /* matches M_NOWAIT */
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#define UVM_KMF_VALLOC 0x2 /* allocate VA only */
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#define UVM_KMF_TRYLOCK UVM_FLAG_TRYLOCK /* try locking only */
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.Ed
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.Pp
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.Dv UVM_KMF_NOWAIT
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causes
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.Fn uvm_km_kmemalloc
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to return immediately if no memory is available.
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.Dv UVM_KMF_VALLOC
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causes no pages to be allocated, only a virtual address.
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.Dv UVM_KMF_TRYLOCK
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causes
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.Fn uvm_km_kmemalloc
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to use
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.Fn simple_lock_try
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when locking maps.
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.Pp
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.Fn uvm_km_valloc
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and
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.Fn uvm_km_valloc_wait
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return a newly allocated zero-filled address in the kernel map of size
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.Fa size .
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.Fn uvm_km_valloc_wait
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will also wait for kernel memory to become available, if there is a
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|
memory shortage.
|
|
.Sh ALLOCATION OF PHYSICAL MEMORY
|
|
.Pp
|
|
.nr nS 1
|
|
.Ft struct vm_page *
|
|
.Fn uvm_pagealloc "struct uvm_object *uobj" "voff_t off" "struct vm_anon *anon"
|
|
.Ft void
|
|
.Fn uvm_pagerealloc "struct vm_page *pg" "struct uvm_object *newobj" "voff_t newoff"
|
|
.Ft void
|
|
.Fn uvm_pagefree "struct vm_page *pg"
|
|
.Ft int
|
|
.Fn uvm_pglistalloc "psize_t size" "paddr_t low" "paddr_t high" "paddr_t alignment" "paddr_t boundary" "struct pglist *rlist" "int nsegs" "int waitok"
|
|
.Ft void
|
|
.Fn uvm_pglistfree "struct pglist *list"
|
|
.Ft void
|
|
.Fn uvm_page_physload "vaddr_t start" "vaddr_t end" "vaddr_t avail_start" "vaddr_t avail_end"
|
|
.nr nS 0
|
|
.Pp
|
|
.Fn uvm_pagealloc
|
|
allocates a page of memory at virtual address
|
|
.Fa off
|
|
in either the object
|
|
.Fa uobj
|
|
or the anonymous memory
|
|
.Fa anon ,
|
|
which must be locked by the caller. Only one of
|
|
.Fa off
|
|
and
|
|
.Fa uobj
|
|
can be non
|
|
.Dv NULL .
|
|
Returns
|
|
.Dv NULL
|
|
when no page can be found.
|
|
.Pp
|
|
.Fn uvm_pagerealloc
|
|
reallocates page
|
|
.Fa pg
|
|
to a new object
|
|
.Fa newobj ,
|
|
at a new offset
|
|
.Fa newoff .
|
|
.Pp
|
|
.Fn uvm_pagefree
|
|
free's the physical page
|
|
.Fa pg .
|
|
.Pp
|
|
.Fn uvm_pglistalloc
|
|
allocates a list of pages for size
|
|
.Fa size
|
|
byte under various constraints.
|
|
.Fa low
|
|
and
|
|
.Fa high
|
|
describe the lowest and highest addresses acceptable for the list. If
|
|
.Fa alignment
|
|
is non-zero, it describes the required alignment of the list, in
|
|
power-of-two notation. If
|
|
.Fa boundary
|
|
is non-zero, no segment of the list may cross this power-of-two
|
|
boundary, relative to zero.
|
|
The
|
|
.Fa nsegs
|
|
and
|
|
.Fa waitok
|
|
arguments are currently ignored.
|
|
.Pp
|
|
.Fn uvm_pglistfree
|
|
frees the list of pages pointed to by
|
|
.Fa list .
|
|
.Pp
|
|
.Fn uvm_page_physload
|
|
loads physical memory segments into VM space. It must be called at system
|
|
boot time to setup physical memory management pages. The arguments describe
|
|
the
|
|
.Fa start
|
|
and
|
|
.Fa end
|
|
of the physical addresses of the segment, and the available start and end
|
|
addresses of pages not already in use.
|
|
.\" XXX expand on "system boot time"!
|
|
.Pp
|
|
.Fn uvm_km_suballoc
|
|
allocates submap from
|
|
.Fa map ,
|
|
creating a new map if
|
|
.Fa submap
|
|
is
|
|
.Dv NULL .
|
|
The addresses of the submap can be specified exactly by setting the
|
|
.Fa fixed
|
|
argument to non-zero, which causes the
|
|
.Fa min
|
|
argument specify the beginning of the address in thes submap. If
|
|
.Fa fixed
|
|
is zero, any address of size
|
|
.Fa size
|
|
will be allocated from
|
|
.Fa map
|
|
and the start and end addresses returned in
|
|
.Fa min
|
|
and
|
|
.Fa max .
|
|
If
|
|
.Fa pageable
|
|
is non-zero, entries in the map may be paged out.
|
|
.Pp
|
|
.Fn uvm_km_free
|
|
and
|
|
.Fn uvm_km_free_wakeup
|
|
free
|
|
.Fa size
|
|
bytes of memory in the kernal map, starting at address
|
|
.Fa addr .
|
|
.Fn uvm_km_free_wakeup
|
|
calls
|
|
.Fn thread_wakeup
|
|
on the map before unlocking the map.
|
|
.Sh PROCESSES
|
|
.Pp
|
|
.nr nS 1
|
|
.Ft void
|
|
.Fn uvm_pageout
|
|
.Ft void
|
|
.Fn uvm_scheduler
|
|
.Ft void
|
|
.Fn uvm_swapin "struct proc *p"
|
|
.nr nS 0
|
|
.Pp
|
|
.Fn uvm_pageout
|
|
is the main loop for the page daemon.
|
|
.Pp
|
|
.Fn uvm_scheduler
|
|
is the process zero main loop, which is to be called after the
|
|
system has finished starting other processes. It handles the
|
|
swapping in of runnable, swapped out processes in priority
|
|
order.
|
|
.Pp
|
|
.Fn uvm_swapin
|
|
swaps in the named process.
|
|
.Sh MISCELLANEOUS FUNCTIONS
|
|
.nr nS 1
|
|
.Pp
|
|
.Ft struct uvm_object *
|
|
.Fn uao_create "vsize_t size" "int flags"
|
|
.Ft void
|
|
.Fn uao_detach "struct uvm_object *uobj"
|
|
.Ft void
|
|
.Fn uao_reference "struct uvm_object *uobj"
|
|
|
|
.Ft boolean_t
|
|
.Fn uvm_chgkprot "caddr_t addr" "size_t len" "int rw"
|
|
.Ft void
|
|
.Fn uvm_kernacc "caddr_t addr" "size_t len" "int rw"
|
|
.Ft boolean_t
|
|
.Fn uvm_useracc "caddr_t addr" "size_t len" "int rw"
|
|
|
|
.Ft int
|
|
.Fn uvm_vslock "struct proc *p" "caddr_t addr" "size_t len" "vm_prot_t prot"
|
|
.Ft void
|
|
.Fn uvm_vsunlock "struct proc *p" "caddr_t addr" "size_t len"
|
|
|
|
.Ft void
|
|
.Fn uvm_meter
|
|
.Ft int
|
|
.Fn uvm_sysctl "int *name" "u_int namelen" "void *oldp" "size_t *oldlenp" "void *newp " "size_t newlen" "struct proc *p"
|
|
|
|
.Ft void
|
|
.Fn uvm_fork "struct proc *p1" "struct proc *p2" "boolean_t shared"
|
|
.Ft int
|
|
.Fn uvm_grow "struct proc *p" "vaddr_t sp"
|
|
.Ft int
|
|
.Fn uvm_coredump "struct proc *p" "struct vnode *vp" "struct ucred *cred" "struct core *chdr"
|
|
.nr nS 0
|
|
.Pp
|
|
The
|
|
.Fn uao_create ,
|
|
.Fn uao_detach
|
|
and
|
|
.Fn uao_reference
|
|
functions operate on anonymous memory objects, such as those used to support
|
|
System V shared memory.
|
|
.Fn uao_create
|
|
returns an object of size
|
|
.Fa size
|
|
with flags:
|
|
.Bd -literal
|
|
#define UAO_FLAG_KERNOBJ 0x1 /* create kernel object */
|
|
#define UAO_FLAG_KERNSWAP 0x2 /* enable kernel swap */
|
|
.Pp
|
|
.Ed
|
|
which can only be used once each at system boot time.
|
|
.Fn uao_reference
|
|
creates an additional reference to the named anonymous memory object.
|
|
.Fn uao_detach
|
|
removes a reference from the named anonymous memory object, destroying
|
|
it if removing the last reference.
|
|
.Pp
|
|
.Fn uvm_chgkprot
|
|
changes the protection of kernel memory from
|
|
.Fa addr
|
|
to
|
|
.Fa addr + len
|
|
to the value of
|
|
.Fa rw .
|
|
This is primarily useful for debuggers, for setting breakpoints.
|
|
This function is only available with options
|
|
.Dv KGDB .
|
|
.Pp
|
|
.Fn uvm_kernacc
|
|
and
|
|
.Fn uvm_useracc
|
|
check the access at address
|
|
.Fa addr
|
|
to
|
|
.Fa addr + len
|
|
for
|
|
.Fa rw
|
|
access, in the kernel address space, and the current process'
|
|
address space respectively.
|
|
.Pp
|
|
.Fn uvm_vslock
|
|
and
|
|
.Fn uvm_vsunlock
|
|
control the wiring and unwiring of pages for process
|
|
.Fa p
|
|
from
|
|
.Fa addr
|
|
to
|
|
.Fa addr + len .
|
|
These functions are normally used to wire memory for I/O.
|
|
.Pp
|
|
.Fn uvm_meter
|
|
calculates the load average and wakes up the swapper if necessary.
|
|
.Pp
|
|
.Fn uvm_sysctl
|
|
provides support for the
|
|
.Dv CTL_VM
|
|
domain of the
|
|
.Xr sysctl 3
|
|
hierarchy.
|
|
.Fn uvm_sysctl
|
|
handles the
|
|
.Dv VM_LOADAVG ,
|
|
.Dv VM_METER
|
|
and
|
|
.Dv VM_UVMEXP
|
|
calls, which return the current load averages, calculates current VM
|
|
totals, and returns the uvmexp structure respectively. The load averages
|
|
are access from userland using the
|
|
.Xr getloadavg 3
|
|
function. The uvmexp structure has all global state of the UVM system,
|
|
and has the following members:
|
|
.Bd -literal
|
|
/* vm_page constants */
|
|
int pagesize; /* size of a page (PAGE_SIZE): must be power of 2 */
|
|
int pagemask; /* page mask */
|
|
int pageshift; /* page shift */
|
|
|
|
/* vm_page counters */
|
|
int npages; /* number of pages we manage */
|
|
int free; /* number of free pages */
|
|
int active; /* number of active pages */
|
|
int inactive; /* number of pages that we free'd but may want back */
|
|
int paging; /* number of pages in the process of being paged out */
|
|
int wired; /* number of wired pages */
|
|
int reserve_pagedaemon; /* number of pages reserved for pagedaemon */
|
|
int reserve_kernel; /* number of pages reserved for kernel */
|
|
|
|
/* pageout params */
|
|
int freemin; /* min number of free pages */
|
|
int freetarg; /* target number of free pages */
|
|
int inactarg; /* target number of inactive pages */
|
|
int wiredmax; /* max number of wired pages */
|
|
|
|
/* swap */
|
|
int nswapdev; /* number of configured swap devices in system */
|
|
int swpages; /* number of PAGE_SIZE'ed swap pages */
|
|
int swpginuse; /* number of swap pages in use */
|
|
int nswget; /* number of times fault calls uvm_swap_get() */
|
|
int nanon; /* number total of anon's in system */
|
|
int nfreeanon; /* number of free anon's */
|
|
|
|
/* stat counters */
|
|
int faults; /* page fault count */
|
|
int traps; /* trap count */
|
|
int intrs; /* interrupt count */
|
|
int swtch; /* context switch count */
|
|
int softs; /* software interrupt count */
|
|
int syscalls; /* system calls */
|
|
int pageins; /* pagein operation count */
|
|
/* pageouts are in pdpageouts below */
|
|
int swapins; /* swapins */
|
|
int swapouts; /* swapouts */
|
|
int pgswapin; /* pages swapped in */
|
|
int pgswapout; /* pages swapped out */
|
|
int forks; /* forks */
|
|
int forks_ppwait; /* forks where parent waits */
|
|
int forks_sharevm; /* forks where vmspace is shared */
|
|
|
|
/* fault subcounters */
|
|
int fltnoram; /* number of times fault was out of ram */
|
|
int fltnoanon; /* number of times fault was out of anons */
|
|
int fltpgwait; /* number of times fault had to wait on a page */
|
|
int fltpgrele; /* number of times fault found a released page */
|
|
int fltrelck; /* number of times fault relock called */
|
|
int fltrelckok; /* number of times fault relock is a success */
|
|
int fltanget; /* number of times fault gets anon page */
|
|
int fltanretry; /* number of times fault retrys an anon get */
|
|
int fltamcopy; /* number of times fault clears "needs copy" */
|
|
int fltnamap; /* number of times fault maps a neighbor anon page */
|
|
int fltnomap; /* number of times fault maps a neighbor obj page */
|
|
int fltlget; /* number of times fault does a locked pgo_get */
|
|
int fltget; /* number of times fault does an unlocked get */
|
|
int flt_anon; /* number of times fault anon (case 1a) */
|
|
int flt_acow; /* number of times fault anon cow (case 1b) */
|
|
int flt_obj; /* number of times fault is on object page (2a) */
|
|
int flt_prcopy; /* number of times fault promotes with copy (2b) */
|
|
int flt_przero; /* number of times fault promotes with zerofill (2b) */
|
|
|
|
/* daemon counters */
|
|
int pdwoke; /* number of times daemon woke up */
|
|
int pdrevs; /* number of times daemon rev'd clock hand */
|
|
int pdswout; /* number of times daemon called for swapout */
|
|
int pdfreed; /* number of pages daemon freed since boot */
|
|
int pdscans; /* number of pages daemon scaned since boot */
|
|
int pdanscan; /* number of anonymous pages scanned by daemon */
|
|
int pdobscan; /* number of object pages scanned by daemon */
|
|
int pdreact; /* number of pages daemon reactivated since boot */
|
|
int pdbusy; /* number of times daemon found a busy page */
|
|
int pdpageouts; /* number of times daemon started a pageout */
|
|
int pdpending; /* number of times daemon got a pending pagout */
|
|
int pddeact; /* number of pages daemon deactivates */
|
|
.Ed
|
|
.Pp
|
|
.Fn uvm_fork
|
|
forks a virtual address space for process' (old)
|
|
.Fa p1
|
|
and (new)
|
|
.Fa p2 .
|
|
If the
|
|
.Fa shared
|
|
argument is non zero, p1 shares its address space with p2,
|
|
otherwise a new address space is created. This function
|
|
currently has no return value, and thus cannot fail. In
|
|
the future, this function will changed to allowed it to
|
|
fail in low memory conditions.
|
|
.Pp
|
|
.Fn uvm_grow
|
|
increases the stack segment of process
|
|
.Fa p
|
|
to include
|
|
.Fa sp .
|
|
.Pp
|
|
.Fn uvm_coredump
|
|
generates a coredump on vnode
|
|
.Fa vp
|
|
for process
|
|
.Fa p
|
|
with credentials
|
|
.Fa cred
|
|
and core header description in
|
|
.Fa chdr .
|
|
.Sh NOTES
|
|
.Fn uvm_chgkprot
|
|
is only available if the kernel has been compiled with options
|
|
.Dv KGDB .
|
|
.Pp
|
|
All structure and types whose names begin with
|
|
.Dq vm_
|
|
will be renamed to
|
|
.Dq uvm_ .
|
|
.Pp
|
|
The
|
|
.Xr pmap 9
|
|
manual page is not yet written.
|
|
.Sh HISTORY
|
|
UVM is a new VM system developed at Washington University in St. Louis
|
|
(Missouri). UVM's roots lie partly in the Mach-based
|
|
.Bx 4.4
|
|
VM system, the
|
|
.Fx
|
|
VM system, and the SunOS4 VM system. UVM's basic structure is based on the
|
|
.Bx 4.4
|
|
VM system. UVM's new anonymous memory system is based on the
|
|
anonymous memory system found in the SunOS4 VM (as described in papers by
|
|
published Sun Microsystems, Inc.). UVM also includes a number of feature
|
|
new to
|
|
.Bx
|
|
including page loanout, map entry passing, simplified
|
|
copy-on-write, and clustered anonymous memory pageout. UVM is also
|
|
further documented in a August 1998 dissertation by Charles D. Cranor.
|
|
.Pp
|
|
UVM appeared in
|
|
.Nx 1.4 .
|
|
.Sh AUTHORS
|
|
Charles D. Cranor <chuck@ccrc.wustl.edu> designed and implemented UVM.
|
|
.Pp
|
|
Matthew Green <mrg@eterna.com.au> wrote the swap-space management code
|
|
and handled the logistical issues involved with merging UVM into the
|
|
.Nx
|
|
source tree.
|
|
.Pp
|
|
Chuck Silvers <chuq@chuq.com> implemented the aobj pager, thus allowing
|
|
UVM to support System V shared memory and process swapping.
|
|
.Sh SEE ALSO
|
|
.Xr getloadavg 3 ,
|
|
.Xr kvm 3 ,
|
|
.Xr sysctl 3 ,
|
|
.Xr ddb 4 ,
|
|
.Xr options 4
|