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BUFFERCACHE(9)           BSD Kernel Developer's Manual          BUFFERCACHE(9)

     buffercache, bread, breadn, bwrite, bawrite, bdwrite, getblk, geteblk,
     incore, brelse, biodone, biowait -- buffer cache interfaces

     #include <&lt;sys/buf.h>&gt;

     bread(struct vnode *vp, daddr_t blkno, int size, struct buf **bpp);

     breadn(struct vnode *vp, daddr_t blkno, int size, daddr_t rablks[],
         int rasizes[], int nrablks, struct buf **bpp);

     bwrite(struct buf *bp);

     bawrite(struct buf *bp);

     bdwrite(struct buf *bp);

     struct buf *
     getblk(struct vnode *vp, daddr_t blkno, int size, int slpflag,
         int slptimeo);

     struct buf *
     geteblk(int size);

     struct buf *
     incore(struct vnode *vp, daddr_t blkno);

     brelse(struct buf *bp);

     biodone(struct buf *bp);

     biowait(struct buf *bp);

     The buffercache interface is used by each filesystem to improve I/O per-
     formance using in-core caches of filesystem blocks.

     The kernel memory used to cache a block is called a buffer and described
     by a buf structure.  In addition to describing a cached block, a buf
     structure is also used to describe an I/O request as a part of the disk
     driver interface.

     bread(vp, blkno, size, bpp)
              Read a block corresponding to vp and blkno.  The buffer is
              returned via bpp.

              If the buffer is not found (i.e. the block is not cached in mem-
              ory), bread() calls getblk() to allocate a buffer with enough
              pages for size and reads the specified disk block into it.

              The buffer returned by bread() is marked as busy.  (The B_BUSY
              flag is set.)  After manipulation of the buffer returned from
              bread(), the caller should unbusy it so that another thread can
              get it.  If the buffer contents are modified and should be writ-
              ten back to disk, it should be unbusied using one of the vari-
              ants of bwrite().  Otherwise, it should be unbusied using

     breadn(vp, blkno, size, rablks, rasizes, nrablks, bpp)
              Get a buffer as bread().  In addition, breadn() will start read-
              ahead of blocks specified by rablks, rasizes, and nrablks.  The
              read-ahead blocks aren't returned, but are available in cache
              for future accesses.

              Write a block.  Start I/O for write using VOP_STRATEGY().  Then,
              unless the B_ASYNC flag is set in bp, bwrite() waits for the I/O
              to complete.

              Write a block asynchronously.  Set the B_ASYNC flag in bp and
              simply call VOP_BWRITE(), which results in bwrite() for most

              Delayed write.  Unlike bawrite(), bdwrite() won't start any I/O.
              It only marks the buffer as dirty (B_DELWRI) and unbusies it.
              This routine should be used when the buffer is expected to be
              modified again soon, typically a small write that partially
              fills a buffer.

     getblk(vp, blkno, size, slpflag, slptimeo)
              Get a block of requested size size that is associated with a
              given vnode and block offset, specified by vp and blkno.  If it
              is found in the block cache, mark it as having been found, make
              it busy and return it.  Otherwise, return an empty block of the
              correct size.  It is up to the caller to ensure that the cached
              blocks are of the correct size.

              If getblk() needs to sleep, slpflag and slptimeo are used as
              arguments for tsleep().

              Allocate an empty, disassociated block of a given size size.

     incore(vp, blkno)
              Determine if a block associated with a given vnode and block
              offset is in the cache.  If it is there, return a pointer to it.
              Note that incore() doesn't mark the buffer as busy unlike

              Unlock a buffer by clearing the B_AGE, B_ASYNC, B_BUSY,
              B_NOCACHE, and B_DEFERRED flags and release it to the free

              Mark I/O complete on a buffer.  If a callback has been requested
              by B_CALL, do so.  Otherwise, wake up the waiting processes.

              Wait for operations on the buffer to complete.  When they do,
              extract and return the I/O's error value.  If the operation on
              the buffer is being done via a direct call to a strategy() type
              function, then the buffer must be previously initialized with
              the B_RAW flag.

     This section describes places within the OpenBSD source tree where actual
     code implementing the buffer cache subsystem can be found.  All pathnames
     are relative to /usr/src.

     The buffer cache subsystem is implemented within the file

     intro(9), vnode(9), VOP_STRATEGY(9)

     Maurice J. Bach, The Design of the UNIX Operating System, Prentice Hall,

     Marshall Kirk McKusick, Keith Bostic, Michael J. Karels, and John S.
     Quarterman, The Design and Implementation of the 4.4BSD Operating System,
     Addison Wesley, 1996.

     Leffler, et. al., The Design and Implementation of the 4.3 BSD Unix
     Operating System, Addison Wesley, 1989.

BSD                            December 11, 2014                           BSD