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SGLIST(9) FreeBSD Kernel Developer's Manual SGLIST(9)
NAME
sglist, sglist_alloc, sglist_append, sglist_append_bio,
sglist_append_mbuf, sglist_append_mbuf_epg, sglist_append_phys,
sglist_append_sglist, sglist_append_single_mbuf, sglist_append_uio,
sglist_append_user, sglist_append_vmpages, sglist_build, sglist_clone,
sglist_consume_uio, sglist_count, sglist_count_mbuf_epg,
sglist_count_vmpages, sglist_free, sglist_hold, sglist_init, sglist_join,
sglist_length, sglist_reset, sglist_slice, sglist_split - manage a
scatter/gather list of physical memory addresses
SYNOPSIS
#include <sys/types.h>
#include <sys/sglist.h>
struct sglist *
sglist_alloc(int nsegs, int mflags);
int
sglist_append(struct sglist *sg, void *buf, size_t len);
int
sglist_append_bio(struct sglist *sg, struct bio *bp);
int
sglist_append_mbuf_epg(struct sglist *sg, struct mbuf *m, size_t offset,
size_t len);
int
sglist_append_mbuf(struct sglist *sg, struct mbuf *m);
int
sglist_append_phys(struct sglist *sg, vm_paddr_t paddr, size_t len);
int
sglist_append_sglist(struct sglist *sg, struct sglist *source,
size_t offset, size_t len);
int
sglist_append_single_mbuf(struct sglist *sg, struct mbuf *m);
int
sglist_append_uio(struct sglist *sg, struct uio *uio);
int
sglist_append_user(struct sglist *sg, void *buf, size_t len,
struct thread *td);
int
sglist_append_vmpages(struct sglist *sg, vm_page_t *m, size_t pgoff,
size_t len);
struct sglist *
sglist_build(void *buf, size_t len, int mflags);
struct sglist *
sglist_clone(struct sglist *sg, int mflags);
sglist_count_mbuf_epg(struct mbuf *m, size_t offset, size_t len);
int
sglist_count_vmpages(vm_page_t *m, size_t pgoff, size_t len);
void
sglist_free(struct sglist *sg);
struct sglist *
sglist_hold(struct sglist *sg);
void
sglist_init(struct sglist *sg, int maxsegs, struct sglist_seg *segs);
int
sglist_join(struct sglist *first, struct sglist *second);
size_t
sglist_length(struct sglist *sg);
void
sglist_reset(struct sglist *sg);
int
sglist_slice(struct sglist *original, struct sglist **slice,
size_t offset, size_t length, int mflags);
int
sglist_split(struct sglist *original, struct sglist **head,
size_t length, int mflags);
DESCRIPTION
The sglist API manages physical address ranges. Each list contains one
or more elements. Each element contains a starting physical address and
a length. Scatter/gather lists are read-only while they are shared. If
one wishes to alter an existing scatter/gather list and does not hold the
sole reference to the list, then one should create a new list instead of
modifying the existing list.
Each scatter/gather list object contains a reference count. New lists
are created with a single reference. New references are obtained by
calling sglist_hold and are released by calling sglist_free.
Allocating and Initializing Lists
Each sglist object consists of a header structure and a variable-length
array of scatter/gather list elements. The sglist_alloc function
allocates a new list that contains a header and nsegs scatter/gather list
elements. The mflags argument can be set to either M_NOWAIT or M_WAITOK.
The sglist_count function returns the number of scatter/gather list
elements needed to describe the physical address ranges mapped by a
single kernel virtual address range. The kernel virtual address range
starts at buf and is len bytes long.
The sglist_count_mbuf_epg function returns the number of scatter/gather
list elements needed to describe the external multipage mbuf buffer m.
The ranges start at an offset of offset relative to the start of the
buffer and is len bytes long.
address range. The kernel virtual address range starts at buf and is len
bytes long. The mflags argument can be set to either M_NOWAIT or
M_WAITOK.
The sglist_clone function returns a copy of an existing scatter/gather
list object sg. The mflags argument can be set to either M_NOWAIT or
M_WAITOK. This can be used to obtain a private copy of a scatter/gather
list before modifying it.
The sglist_init function initializes a scatter/gather list header. The
header is pointed to by sg and is initialized to manage an array of
maxsegs scatter/gather list elements pointed to by segs. This can be
used to initialize a scatter/gather list header whose storage is not
provided by sglist_alloc. In that case, the caller should not call
sglist_free to release its own reference and is responsible for ensuring
all other references to the list are dropped before it releases the
storage for sg and segs.
Constructing Scatter/Gather Lists
The sglist API provides several routines for building a scatter/gather
list to describe one or more objects. Specifically, the sglist_append
family of routines can be used to append the physical address ranges
described by an object to the end of a scatter/gather list. All of these
routines return 0 on success or an error on failure. If a request to
append an address range to a scatter/gather list fails, the
scatter/gather list will remain unchanged.
The sglist_append function appends the physical address ranges described
by a single kernel virtual address range to the scatter/gather list sg.
The kernel virtual address range starts at buf and is len bytes long.
The sglist_append_bio function appends the physical address ranges
described by a single bio bp to the scatter/gather list sg.
The sglist_append_mbuf_epg function appends the physical address ranges
described by the external multipage mbuf(9) buffer ext_pgs to the
scatter/gather list sg. The physical address ranges start at offset
offset within ext_pgs and continue for len bytes. Note that unlike
sglist_append_mbuf, sglist_append_mbuf_epg only adds ranges for a single
mbuf, not an entire mbuf chain.
The sglist_append_mbuf function appends the physical address ranges
described by an entire mbuf chain m to the scatter/gather list sg.
The sglist_append_mbuf function appends the physical address ranges
described by a single mbuf m to the scatter/gather list sg.
The sglist_append_phys function appends a single physical address range
to the scatter/gather list sg. The physical address range starts at
paddr and is len bytes long.
The sglist_append_sglist function appends physical address ranges
described by the scatter/gather list source to the scatter/gather list
sg. The physical address ranges start at offset offset within source and
continue for len bytes.
The sglist_append_uio function appends the physical address ranges
described by a uio(9) object to the scatter/gather list sg. Note that it
is the caller's responsibility to ensure that the pages backing the I/O
is the caller's responsibility to ensure that the pages backing the user
buffer are wired for the lifetime of sg.
The sglist_append_vmpages function appends the physical address ranges of
a buffer backed by an array of virtual memory pages m. The buffer starts
at an offset of pgoff bytes relative to the first page and is len bytes
long.
The sglist_consume_uio function is a variation of sglist_append_uio. As
with sglist_append_uio, it appends the physical address ranges described
by uio to the scatter/gather list sg. Unlike sglist_append_uio, however,
sglist_consume_uio modifies the I/O request to indicate that the appended
address ranges have been processed similar to calling uiomove(9). This
routine will only append ranges that describe up to resid total bytes in
length. If the available segments in the scatter/gather list are
exhausted before resid bytes are processed, then the uio structure will
be updated to reflect the actual number of bytes processed, and
sglist_consume_io will return zero to indicate success. In effect, this
function will perform partial reads or writes. The caller can compare
the uio_resid member of uio before and after calling sglist_consume_uio
to determine the actual number of bytes processed.
Manipulating Scatter/Gather Lists
The sglist_join function appends physical address ranges from the
scatter/gather list second onto first and then resets second to an empty
list. It returns zero on success or an error on failure.
The sglist_split function splits an existing scatter/gather list into two
lists. The first length bytes described by the list original are moved
to a new list *head. If original describes a total address range that is
smaller than length bytes, then all of the address ranges will be moved
to the new list at *head and original will be an empty list. The caller
may supply an existing scatter/gather list in *head. If so, the list
must be empty. Otherwise, the caller may set *head to NULL in which case
a new scatter/gather list will be allocated. In that case, mflags may be
set to either M_NOWAIT or M_WAITOK. Note that since the original list is
modified by this call, it must be a private list with no other
references. The sglist_split function returns zero on success or an
error on failure.
The sglist_slice function generates a new scatter/gather list from a sub-
range of an existing scatter/gather list original. The sub-range to
extract is specified by the offset and length parameters. The new
scatter/gather list is stored in *slice. As with head for sglist_join,
the caller may either provide an empty scatter/gather list, or it may set
*slice to NULL in which case sglist_slice will allocate a new list
subject to mflags. Unlike sglist_split, sglist_slice does not modify
original and does not require it to be a private list. The sglist_split
function returns zero on success or an error on failure.
Miscellaneous Routines
The sglist_reset function clears the scatter/gather list sg so that it no
longer maps any address ranges. This can allow reuse of a single
scatter/gather list object for multiple requests.
The sglist_length function returns the total length of the physical
address ranges described by the scatter/gather list sg.
RETURN VALUES
The sglist_count family of functions return a count of scatter/gather
list elements.
The sglist_length function returns a count of address space described by
a scatter/gather list in bytes.
ERRORS
The sglist_append functions return the following errors on failure:
[EINVAL] The scatter/gather list has zero segments.
[EFBIG] There are not enough available segments in the
scatter/gather list to append the specified physical
address ranges.
The sglist_consume_uio function returns the following error on failure:
[EINVAL] The scatter/gather list has zero segments.
The sglist_join function returns the following error on failure:
[EFBIG] There are not enough available segments in the
scatter/gather list first to append the physical
address ranges from second.
The sglist_slice function returns the following errors on failure:
[EINVAL] The original scatter/gather list does not describe
enough address space to cover the requested sub-range.
[EINVAL] The caller-supplied scatter/gather list in *slice is
not empty.
[ENOMEM] An attempt to allocate a new scatter/gather list with
M_NOWAIT set in mflags failed.
[EFBIG] There are not enough available segments in the caller-
supplied scatter/gather list in *slice to describe the
requested physical address ranges.
The sglist_split function returns the following errors on failure:
[EDOOFUS] The original scatter/gather list has more than one
reference.
[EINVAL] The caller-supplied scatter/gather list in *head is
not empty.
[ENOMEM] An attempt to allocate a new scatter/gather list with
M_NOWAIT set in mflags failed.
[EFBIG] There are not enough available segments in the caller-
supplied scatter/gather list in *head to describe the
requested physical address ranges.
SEE ALSO
g_bio(9), malloc(9), mbuf(9), uio(9)
HISTORY