unsigned long size;
unsigned long flags; /* ra flags RA_FLAG_xxx*/
unsigned long cache_hit; /* cache hit count*/
- unsigned long prev_page; /* Cache last read() position */
+ unsigned long prev_index; /* Cache last read() position */
unsigned long ahead_start; /* Ahead window */
unsigned long ahead_size;
unsigned long ra_pages; /* Maximum readahead window */
unsigned long mmap_hit; /* Cache hit stat for mmap accesses */
unsigned long mmap_miss; /* Cache miss stat for mmap accesses */
- unsigned int offset; /* Offset where last read() ended in a page */
+ unsigned int prev_offset; /* Offset where last read() ended in a page */
};
#define RA_FLAG_MISS 0x01 /* a cache miss occured against this file */
#define RA_FLAG_INCACHE 0x02 /* file is already in cache */
file_ra_state_init(struct file_ra_state *ra, struct address_space *mapping)
{
ra->ra_pages = mapping->backing_dev_info->ra_pages;
- ra->prev_page = -1;
+ ra->prev_index = -1;
}
EXPORT_SYMBOL_GPL(file_ra_state_init);
* size: Number of pages in that read
* Together, these form the "current window".
* Together, start and size represent the `readahead window'.
- * prev_page: The page which the readahead algorithm most-recently inspected.
+ * prev_index: The page which the readahead algorithm most-recently inspected.
* It is mainly used to detect sequential file reading.
* If page_cache_readahead sees that it is again being called for
* a page which it just looked at, it can return immediately without
* making any state changes.
- * offset: Offset in the prev_page where the last read ended - used for
+ * offset: Offset in the prev_index where the last read ended - used for
* detection of sequential file reading.
* ahead_start,
* ahead_size: Together, these form the "ahead window".
* ra_pages: The externally controlled max readahead for this fd.
*
* When readahead is in the off state (size == 0), readahead is disabled.
- * In this state, prev_page is used to detect the resumption of sequential I/O.
+ * In this state, prev_index is used to detect the resumption of sequential I/O.
*
* The readahead code manages two windows - the "current" and the "ahead"
* windows. The intent is that while the application is walking the pages
ra->ahead_size = get_next_ra_size(ra);
ra->ahead_start = ra->start + ra->size;
- block = force || (ra->prev_page >= ra->ahead_start);
+ block = force || (ra->prev_index >= ra->ahead_start);
ret = blockable_page_cache_readahead(mapping, filp,
ra->ahead_start, ra->ahead_size, ra, block);
* We avoid doing extra work and bogusly perturbing the readahead
* window expansion logic.
*/
- if (offset == ra->prev_page && --req_size)
+ if (offset == ra->prev_index && --req_size)
++offset;
- /* Note that prev_page == -1 if it is a first read */
- sequential = (offset == ra->prev_page + 1);
- ra->prev_page = offset;
- ra->offset = 0;
+ /* Note that prev_index == -1 if it is a first read */
+ sequential = (offset == ra->prev_index + 1);
+ ra->prev_index = offset;
+ ra->prev_offset = 0;
max = get_max_readahead(ra);
newsize = min(req_size, max);
if (newsize == 0 || (ra->flags & RA_FLAG_INCACHE))
goto out;
- ra->prev_page += newsize - 1;
+ ra->prev_index += newsize - 1;
/*
* Special case - first read at start of file. We'll assume it's
* we get called back on the first page of the ahead window which
* will allow us to submit more IO.
*/
- if (ra->prev_page >= ra->ahead_start) {
+ if (ra->prev_index >= ra->ahead_start) {
ra->start = ra->ahead_start;
ra->size = ra->ahead_size;
make_ahead_window(mapping, filp, ra, 0);
recheck:
- /* prev_page shouldn't overrun the ahead window */
- ra->prev_page = min(ra->prev_page,
+ /* prev_index shouldn't overrun the ahead window */
+ ra->prev_index = min(ra->prev_index,
ra->ahead_start + ra->ahead_size - 1);
}
out:
- return ra->prev_page + 1;
+ return ra->prev_index + 1;
}
EXPORT_SYMBOL_GPL(page_cache_readahead);