fscache: Implement higher-level write I/O interface
Provide a higher-level function than fscache_write() to perform a write from an inode's pagecache to the cache, whilst fending off concurrent writes by means of the PG_fscache mark on a page: void fscache_write_to_cache(struct fscache_cookie *cookie, struct address_space *mapping, loff_t start, size_t len, loff_t i_size, netfs_io_terminated_t term_func, void *term_func_priv, bool caching); If caching is false, this function does nothing except call (*term_func)() if given. It assumes that, in such a case, PG_fscache will not have been set on the pages. Otherwise, if caching is true, this function requires the source pages to have had PG_fscache set on them before calling. start and len define the region of the file to be modified and i_size indicates the new file size. The source pages are extracted from the mapping. term_func and term_func_priv work as for fscache_write(). The PG_fscache marks will be cleared at the end of the operation, before term_func is called or the function otherwise returns. There is an additonal helper function to clear the PG_fscache bits from a range of pages: void fscache_clear_page_bits(struct fscache_cookie *cookie, struct address_space *mapping, loff_t start, size_t len, bool caching); If caching is true, the pages to be managed are expected to be located on mapping in the range defined by start and len. If caching is false, it does nothing. Signed-off-by: David Howells <dhowells@redhat.com> Reviewed-by: Jeff Layton <jlayton@kernel.org> cc: linux-cachefs@redhat.com Link: https://lore.kernel.org/r/163819614155.215744.5528123235123721230.stgit@warthog.procyon.org.uk/ # v1 Link: https://lore.kernel.org/r/163906916346.143852.15632773570362489926.stgit@warthog.procyon.org.uk/ # v2 Link: https://lore.kernel.org/r/163967123599.1823006.12946816026724657428.stgit@warthog.procyon.org.uk/ # v3 Link: https://lore.kernel.org/r/164021522672.640689.4381958316198807813.stgit@warthog.procyon.org.uk/ # v4
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parent
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104
fs/fscache/io.c
104
fs/fscache/io.c
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@ -149,3 +149,107 @@ int __fscache_begin_read_operation(struct netfs_cache_resources *cres,
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fscache_access_io_read);
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}
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EXPORT_SYMBOL(__fscache_begin_read_operation);
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struct fscache_write_request {
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struct netfs_cache_resources cache_resources;
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struct address_space *mapping;
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loff_t start;
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size_t len;
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bool set_bits;
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netfs_io_terminated_t term_func;
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void *term_func_priv;
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};
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void __fscache_clear_page_bits(struct address_space *mapping,
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loff_t start, size_t len)
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{
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pgoff_t first = start / PAGE_SIZE;
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pgoff_t last = (start + len - 1) / PAGE_SIZE;
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struct page *page;
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if (len) {
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XA_STATE(xas, &mapping->i_pages, first);
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rcu_read_lock();
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xas_for_each(&xas, page, last) {
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end_page_fscache(page);
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}
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rcu_read_unlock();
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}
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}
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EXPORT_SYMBOL(__fscache_clear_page_bits);
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/*
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* Deal with the completion of writing the data to the cache.
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*/
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static void fscache_wreq_done(void *priv, ssize_t transferred_or_error,
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bool was_async)
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{
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struct fscache_write_request *wreq = priv;
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fscache_clear_page_bits(fscache_cres_cookie(&wreq->cache_resources),
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wreq->mapping, wreq->start, wreq->len,
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wreq->set_bits);
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if (wreq->term_func)
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wreq->term_func(wreq->term_func_priv, transferred_or_error,
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was_async);
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fscache_end_operation(&wreq->cache_resources);
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kfree(wreq);
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}
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void __fscache_write_to_cache(struct fscache_cookie *cookie,
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struct address_space *mapping,
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loff_t start, size_t len, loff_t i_size,
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netfs_io_terminated_t term_func,
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void *term_func_priv,
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bool cond)
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{
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struct fscache_write_request *wreq;
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struct netfs_cache_resources *cres;
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struct iov_iter iter;
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int ret = -ENOBUFS;
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if (len == 0)
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goto abandon;
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_enter("%llx,%zx", start, len);
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wreq = kzalloc(sizeof(struct fscache_write_request), GFP_NOFS);
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if (!wreq)
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goto abandon;
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wreq->mapping = mapping;
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wreq->start = start;
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wreq->len = len;
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wreq->set_bits = cond;
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wreq->term_func = term_func;
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wreq->term_func_priv = term_func_priv;
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cres = &wreq->cache_resources;
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if (fscache_begin_operation(cres, cookie, FSCACHE_WANT_WRITE,
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fscache_access_io_write) < 0)
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goto abandon_free;
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ret = cres->ops->prepare_write(cres, &start, &len, i_size, false);
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if (ret < 0)
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goto abandon_end;
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/* TODO: Consider clearing page bits now for space the write isn't
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* covering. This is more complicated than it appears when THPs are
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* taken into account.
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*/
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iov_iter_xarray(&iter, WRITE, &mapping->i_pages, start, len);
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fscache_write(cres, start, &iter, fscache_wreq_done, wreq);
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return;
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abandon_end:
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return fscache_wreq_done(wreq, ret, false);
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abandon_free:
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kfree(wreq);
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abandon:
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fscache_clear_page_bits(cookie, mapping, start, len, cond);
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if (term_func)
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term_func(term_func_priv, ret, false);
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}
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EXPORT_SYMBOL(__fscache_write_to_cache);
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@ -165,6 +165,11 @@ extern void __fscache_relinquish_cookie(struct fscache_cookie *, bool);
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extern void __fscache_invalidate(struct fscache_cookie *, const void *, loff_t, unsigned int);
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extern int __fscache_begin_read_operation(struct netfs_cache_resources *, struct fscache_cookie *);
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extern void __fscache_write_to_cache(struct fscache_cookie *, struct address_space *,
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loff_t, size_t, loff_t, netfs_io_terminated_t, void *,
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bool);
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extern void __fscache_clear_page_bits(struct address_space *, loff_t, size_t);
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/**
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* fscache_acquire_volume - Register a volume as desiring caching services
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* @volume_key: An identification string for the volume
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@ -503,4 +508,62 @@ int fscache_write(struct netfs_cache_resources *cres,
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return ops->write(cres, start_pos, iter, term_func, term_func_priv);
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}
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/**
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* fscache_clear_page_bits - Clear the PG_fscache bits from a set of pages
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* @cookie: The cookie representing the cache object
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* @mapping: The netfs inode to use as the source
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* @start: The start position in @mapping
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* @len: The amount of data to unlock
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* @caching: If PG_fscache has been set
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*
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* Clear the PG_fscache flag from a sequence of pages and wake up anyone who's
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* waiting.
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*/
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static inline void fscache_clear_page_bits(struct fscache_cookie *cookie,
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struct address_space *mapping,
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loff_t start, size_t len,
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bool caching)
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{
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if (caching)
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__fscache_clear_page_bits(mapping, start, len);
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}
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/**
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* fscache_write_to_cache - Save a write to the cache and clear PG_fscache
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* @cookie: The cookie representing the cache object
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* @mapping: The netfs inode to use as the source
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* @start: The start position in @mapping
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* @len: The amount of data to write back
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* @i_size: The new size of the inode
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* @term_func: The function to call upon completion
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* @term_func_priv: The private data for @term_func
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* @caching: If PG_fscache has been set
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*
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* Helper function for a netfs to write dirty data from an inode into the cache
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* object that's backing it.
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*
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* @start and @len describe the range of the data. This does not need to be
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* page-aligned, but to satisfy DIO requirements, the cache may expand it up to
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* the page boundaries on either end. All the pages covering the range must be
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* marked with PG_fscache.
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*
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* If given, @term_func will be called upon completion and supplied with
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* @term_func_priv. Note that the PG_fscache flags will have been cleared by
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* this point, so the netfs must retain its own pin on the mapping.
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*/
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static inline void fscache_write_to_cache(struct fscache_cookie *cookie,
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struct address_space *mapping,
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loff_t start, size_t len, loff_t i_size,
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netfs_io_terminated_t term_func,
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void *term_func_priv,
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bool caching)
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{
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if (caching)
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__fscache_write_to_cache(cookie, mapping, start, len, i_size,
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term_func, term_func_priv, caching);
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else if (term_func)
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term_func(term_func_priv, -ENOBUFS, false);
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}
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#endif /* _LINUX_FSCACHE_H */
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