NAME
VOP_GETPAGES, VOP_PUTPAGES — read or write VM pages from a fileSYNOPSIS
#include <sys/param.h>#include <sys/vnode.h>
#include <vm/vm.h> int
VOP_GETPAGES(struct vnode *vp, vm_page_t *ma, int count, int *rbehind, int *rahead); int
VOP_PUTPAGES(struct vnode *vp, vm_page_t *ma, int bytecount, int flags, int *rtvals);
DESCRIPTION
The VOP_GETPAGES() method is called to read in pages of virtual memory which are backed by ordinary files. If other adjacent pages are backed by adjacent regions of the same file, VOP_GETPAGES() is requested to read those pages as well, although it is not required to do so. The VOP_PUTPAGES() method does the converse; that is to say, it writes out adjacent dirty pages of virtual memory. On entry, the vnode lock is held but neither the page queue nor VM object locks are held. Both methods return in the same state on both success and error returns. The arguments are:- vp
- The file to access.
- ma
- Pointer to the first element of an array of pages representing a contiguous region of the file to be read or written.
- count
- The length of the ma array.
- bytecount
- The number of bytes that should be written from the pages of the array.
- flags
- A bitfield of flags affecting the function operation. If
VM_PAGER_PUT_SYNC
is set, the write should be synchronous; control must not be returned to the caller until after the write is finished. IfVM_PAGER_PUT_INVAL
is set, the pages are to be invalidated after being written. IfVM_PAGER_PUT_NOREUSE
is set, the I/O performed should set the IO_NOREUSE flag, to indicate to the filesystem that pages should be marked for fast reuse if needed. This could occur via a call to vm_page_deactivate_noreuse(9), which puts such pages onto the head of the inactive queue. IfVM_PAGER_CLUSTER_OK
is set, writes may be delayed, so that related writes can be coalesced for efficiency, e.g., using the clustering mechanism of the buffer cache. - rtvals
- An array of VM system result codes indicating the status of each page written by VOP_PUTPAGES().
- rbehind
- Optional pointer to integer specifying number of pages to be read behind, if possible. If the filesystem supports that feature, number of actually read pages is reported back, otherwise zero is returned.
- rahead
- Optional pointer to integer specifying number of pages to be read ahead, if possible. If the filesystem supports that feature, number of actually read pages is reported back, otherwise zero is returned.
VM_PAGER_OK
- The page was successfully written. The implementation must call vm_page_undirty(9) to mark the page as clean.
VM_PAGER_PEND
- The page was scheduled to be written asynchronously. When the write completes, the completion callback should call vm_object_pip_wakeup(9) and vm_page_sunbusy(9) to clear the busy flag and awaken any other threads waiting for this page, in addition to calling vm_page_undirty(9).
VM_PAGER_BAD
- The page was entirely beyond the end of the backing file. This condition should not be possible if the vnode's file system is correctly implemented.
VM_PAGER_ERROR
- The page could not be written because of an error on the underlying storage medium or protocol.
VM_PAGER_FAIL
- Treated identically to
VM_PAGER_ERROR
. VM_PAGER_AGAIN
- The page was not handled by this request.
RETURN VALUES
If it successfully reads all pages in ma, VOP_GETPAGES() returnsVM_PAGER_OK
; otherwise, it returns
VM_PAGER_ERROR
. By convention, the return
value of VOP_PUTPAGES() is
rtvals[0].
SEE ALSO
vm_object_pip_wakeup(9), vm_page_free(9), vm_page_sunbusy(9), vm_page_undirty(9), vm_page_xunbusy(9), vnode(9)AUTHORS
This manual page was written by Doug Rabson and then substantially rewritten byGarrett Wollman.
June 29, 2019 | Debian |