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-rw-r--r--mm/readahead.c174
1 files changed, 174 insertions, 0 deletions
diff --git a/mm/readahead.c b/mm/readahead.c
index 072ce8f8357..c094e4f5a25 100644
--- a/mm/readahead.c
+++ b/mm/readahead.c
@@ -611,3 +611,177 @@ unsigned long ra_submit(struct file_ra_state *ra,
return actual;
}
EXPORT_SYMBOL_GPL(ra_submit);
+
+/*
+ * Get the previous window size, ramp it up, and
+ * return it as the new window size.
+ */
+static unsigned long get_next_ra_size2(struct file_ra_state *ra,
+ unsigned long max)
+{
+ unsigned long cur = ra->readahead_index - ra->ra_index;
+ unsigned long newsize;
+
+ if (cur < max / 16)
+ newsize = cur * 4;
+ else
+ newsize = cur * 2;
+
+ return min(newsize, max);
+}
+
+/*
+ * On-demand readahead design.
+ *
+ * The fields in struct file_ra_state represent the most-recently-executed
+ * readahead attempt:
+ *
+ * |-------- last readahead window -------->|
+ * |-- application walking here -->|
+ * ======#============|==================#=====================|
+ * ^la_index ^ra_index ^lookahead_index ^readahead_index
+ *
+ * [ra_index, readahead_index) represents the last readahead window.
+ *
+ * [la_index, lookahead_index] is where the application would be walking(in
+ * the common case of cache-cold sequential reads): the last window was
+ * established when the application was at la_index, and the next window will
+ * be bring in when the application reaches lookahead_index.
+ *
+ * To overlap application thinking time and disk I/O time, we do
+ * `readahead pipelining': Do not wait until the application consumed all
+ * readahead pages and stalled on the missing page at readahead_index;
+ * Instead, submit an asynchronous readahead I/O as early as the application
+ * reads on the page at lookahead_index. Normally lookahead_index will be
+ * equal to ra_index, for maximum pipelining.
+ *
+ * In interleaved sequential reads, concurrent streams on the same fd can
+ * be invalidating each other's readahead state. So we flag the new readahead
+ * page at lookahead_index with PG_readahead, and use it as readahead
+ * indicator. The flag won't be set on already cached pages, to avoid the
+ * readahead-for-nothing fuss, saving pointless page cache lookups.
+ *
+ * prev_index tracks the last visited page in the _previous_ read request.
+ * It should be maintained by the caller, and will be used for detecting
+ * small random reads. Note that the readahead algorithm checks loosely
+ * for sequential patterns. Hence interleaved reads might be served as
+ * sequential ones.
+ *
+ * There is a special-case: if the first page which the application tries to
+ * read happens to be the first page of the file, it is assumed that a linear
+ * read is about to happen and the window is immediately set to the initial size
+ * based on I/O request size and the max_readahead.
+ *
+ * The code ramps up the readahead size aggressively at first, but slow down as
+ * it approaches max_readhead.
+ */
+
+/*
+ * A minimal readahead algorithm for trivial sequential/random reads.
+ */
+static unsigned long
+ondemand_readahead(struct address_space *mapping,
+ struct file_ra_state *ra, struct file *filp,
+ struct page *page, pgoff_t offset,
+ unsigned long req_size)
+{
+ unsigned long max; /* max readahead pages */
+ pgoff_t ra_index; /* readahead index */
+ unsigned long ra_size; /* readahead size */
+ unsigned long la_size; /* lookahead size */
+ int sequential;
+
+ max = ra->ra_pages;
+ sequential = (offset - ra->prev_index <= 1UL) || (req_size > max);
+
+ /*
+ * Lookahead/readahead hit, assume sequential access.
+ * Ramp up sizes, and push forward the readahead window.
+ */
+ if (offset && (offset == ra->lookahead_index ||
+ offset == ra->readahead_index)) {
+ ra_index = ra->readahead_index;
+ ra_size = get_next_ra_size2(ra, max);
+ la_size = ra_size;
+ goto fill_ra;
+ }
+
+ /*
+ * Standalone, small read.
+ * Read as is, and do not pollute the readahead state.
+ */
+ if (!page && !sequential) {
+ return __do_page_cache_readahead(mapping, filp,
+ offset, req_size, 0);
+ }
+
+ /*
+ * It may be one of
+ * - first read on start of file
+ * - sequential cache miss
+ * - oversize random read
+ * Start readahead for it.
+ */
+ ra_index = offset;
+ ra_size = get_init_ra_size(req_size, max);
+ la_size = ra_size > req_size ? ra_size - req_size : ra_size;
+
+ /*
+ * Hit on a lookahead page without valid readahead state.
+ * E.g. interleaved reads.
+ * Not knowing its readahead pos/size, bet on the minimal possible one.
+ */
+ if (page) {
+ ra_index++;
+ ra_size = min(4 * ra_size, max);
+ }
+
+fill_ra:
+ ra_set_index(ra, offset, ra_index);
+ ra_set_size(ra, ra_size, la_size);
+
+ return ra_submit(ra, mapping, filp);
+}
+
+/**
+ * page_cache_readahead_ondemand - generic file readahead
+ * @mapping: address_space which holds the pagecache and I/O vectors
+ * @ra: file_ra_state which holds the readahead state
+ * @filp: passed on to ->readpage() and ->readpages()
+ * @page: the page at @offset, or NULL if non-present
+ * @offset: start offset into @mapping, in PAGE_CACHE_SIZE units
+ * @req_size: hint: total size of the read which the caller is performing in
+ * PAGE_CACHE_SIZE units
+ *
+ * page_cache_readahead_ondemand() is the entry point of readahead logic.
+ * This function should be called when it is time to perform readahead:
+ * 1) @page == NULL
+ * A cache miss happened, time for synchronous readahead.
+ * 2) @page != NULL && PageReadahead(@page)
+ * A look-ahead hit occured, time for asynchronous readahead.
+ */
+unsigned long
+page_cache_readahead_ondemand(struct address_space *mapping,
+ struct file_ra_state *ra, struct file *filp,
+ struct page *page, pgoff_t offset,
+ unsigned long req_size)
+{
+ /* no read-ahead */
+ if (!ra->ra_pages)
+ return 0;
+
+ if (page) {
+ ClearPageReadahead(page);
+
+ /*
+ * Defer asynchronous read-ahead on IO congestion.
+ */
+ if (bdi_read_congested(mapping->backing_dev_info))
+ return 0;
+ }
+
+ /* do read-ahead */
+ return ondemand_readahead(mapping, ra, filp, page,
+ offset, req_size);
+}
+EXPORT_SYMBOL_GPL(page_cache_readahead_ondemand);