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41d8e7673a
Provide a flag whereby a filesystem may request that cifs_perform_write() perform write-through caching. This involves putting pages directly into writeback rather than dirty and attaching them to a write operation as we go. Further, the writes being made are limited to the byte range being written rather than whole folios being written. This can be used by cifs, for example, to deal with strict byte-range locking. This can't be used with content encryption as that may require expansion of the write RPC beyond the write being made. This doesn't affect writes via mmap - those are written back in the normal way; similarly failed writethrough writes are marked dirty and left to writeback to retry. Another option would be to simply invalidate them, but the contents can be simultaneously accessed by read() and through mmap. Signed-off-by: David Howells <dhowells@redhat.com> cc: Jeff Layton <jlayton@kernel.org> cc: linux-cachefs@redhat.com cc: linux-fsdevel@vger.kernel.org cc: linux-mm@kvack.org
194 lines
5.1 KiB
C
194 lines
5.1 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/* Object lifetime handling and tracing.
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*
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* Copyright (C) 2022 Red Hat, Inc. All Rights Reserved.
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* Written by David Howells (dhowells@redhat.com)
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*/
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#include <linux/slab.h>
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#include "internal.h"
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/*
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* Allocate an I/O request and initialise it.
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*/
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struct netfs_io_request *netfs_alloc_request(struct address_space *mapping,
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struct file *file,
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loff_t start, size_t len,
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enum netfs_io_origin origin)
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{
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static atomic_t debug_ids;
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struct inode *inode = file ? file_inode(file) : mapping->host;
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struct netfs_inode *ctx = netfs_inode(inode);
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struct netfs_io_request *rreq;
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bool is_unbuffered = (origin == NETFS_UNBUFFERED_WRITE ||
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origin == NETFS_DIO_READ ||
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origin == NETFS_DIO_WRITE);
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bool cached = !is_unbuffered && netfs_is_cache_enabled(ctx);
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int ret;
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rreq = kzalloc(ctx->ops->io_request_size ?: sizeof(struct netfs_io_request),
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GFP_KERNEL);
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if (!rreq)
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return ERR_PTR(-ENOMEM);
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rreq->start = start;
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rreq->len = len;
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rreq->upper_len = len;
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rreq->origin = origin;
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rreq->netfs_ops = ctx->ops;
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rreq->mapping = mapping;
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rreq->inode = inode;
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rreq->i_size = i_size_read(inode);
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rreq->debug_id = atomic_inc_return(&debug_ids);
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INIT_LIST_HEAD(&rreq->subrequests);
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INIT_WORK(&rreq->work, NULL);
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refcount_set(&rreq->ref, 1);
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__set_bit(NETFS_RREQ_IN_PROGRESS, &rreq->flags);
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if (cached)
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__set_bit(NETFS_RREQ_WRITE_TO_CACHE, &rreq->flags);
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if (file && file->f_flags & O_NONBLOCK)
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__set_bit(NETFS_RREQ_NONBLOCK, &rreq->flags);
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if (rreq->netfs_ops->init_request) {
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ret = rreq->netfs_ops->init_request(rreq, file);
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if (ret < 0) {
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kfree(rreq);
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return ERR_PTR(ret);
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}
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}
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trace_netfs_rreq_ref(rreq->debug_id, 1, netfs_rreq_trace_new);
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netfs_proc_add_rreq(rreq);
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netfs_stat(&netfs_n_rh_rreq);
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return rreq;
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}
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void netfs_get_request(struct netfs_io_request *rreq, enum netfs_rreq_ref_trace what)
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{
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int r;
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__refcount_inc(&rreq->ref, &r);
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trace_netfs_rreq_ref(rreq->debug_id, r + 1, what);
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}
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void netfs_clear_subrequests(struct netfs_io_request *rreq, bool was_async)
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{
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struct netfs_io_subrequest *subreq;
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while (!list_empty(&rreq->subrequests)) {
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subreq = list_first_entry(&rreq->subrequests,
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struct netfs_io_subrequest, rreq_link);
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list_del(&subreq->rreq_link);
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netfs_put_subrequest(subreq, was_async,
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netfs_sreq_trace_put_clear);
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}
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}
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static void netfs_free_request(struct work_struct *work)
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{
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struct netfs_io_request *rreq =
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container_of(work, struct netfs_io_request, work);
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unsigned int i;
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trace_netfs_rreq(rreq, netfs_rreq_trace_free);
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netfs_proc_del_rreq(rreq);
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netfs_clear_subrequests(rreq, false);
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if (rreq->netfs_ops->free_request)
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rreq->netfs_ops->free_request(rreq);
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if (rreq->cache_resources.ops)
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rreq->cache_resources.ops->end_operation(&rreq->cache_resources);
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if (rreq->direct_bv) {
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for (i = 0; i < rreq->direct_bv_count; i++) {
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if (rreq->direct_bv[i].bv_page) {
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if (rreq->direct_bv_unpin)
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unpin_user_page(rreq->direct_bv[i].bv_page);
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}
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}
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kvfree(rreq->direct_bv);
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}
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kfree_rcu(rreq, rcu);
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netfs_stat_d(&netfs_n_rh_rreq);
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}
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void netfs_put_request(struct netfs_io_request *rreq, bool was_async,
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enum netfs_rreq_ref_trace what)
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{
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unsigned int debug_id;
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bool dead;
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int r;
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if (rreq) {
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debug_id = rreq->debug_id;
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dead = __refcount_dec_and_test(&rreq->ref, &r);
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trace_netfs_rreq_ref(debug_id, r - 1, what);
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if (dead) {
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if (was_async) {
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rreq->work.func = netfs_free_request;
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if (!queue_work(system_unbound_wq, &rreq->work))
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BUG();
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} else {
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netfs_free_request(&rreq->work);
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}
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}
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}
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}
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/*
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* Allocate and partially initialise an I/O request structure.
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*/
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struct netfs_io_subrequest *netfs_alloc_subrequest(struct netfs_io_request *rreq)
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{
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struct netfs_io_subrequest *subreq;
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subreq = kzalloc(rreq->netfs_ops->io_subrequest_size ?:
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sizeof(struct netfs_io_subrequest),
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GFP_KERNEL);
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if (subreq) {
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INIT_WORK(&subreq->work, NULL);
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INIT_LIST_HEAD(&subreq->rreq_link);
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refcount_set(&subreq->ref, 2);
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subreq->rreq = rreq;
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netfs_get_request(rreq, netfs_rreq_trace_get_subreq);
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netfs_stat(&netfs_n_rh_sreq);
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}
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return subreq;
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}
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void netfs_get_subrequest(struct netfs_io_subrequest *subreq,
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enum netfs_sreq_ref_trace what)
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{
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int r;
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__refcount_inc(&subreq->ref, &r);
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trace_netfs_sreq_ref(subreq->rreq->debug_id, subreq->debug_index, r + 1,
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what);
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}
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static void netfs_free_subrequest(struct netfs_io_subrequest *subreq,
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bool was_async)
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{
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struct netfs_io_request *rreq = subreq->rreq;
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trace_netfs_sreq(subreq, netfs_sreq_trace_free);
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if (rreq->netfs_ops->free_subrequest)
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rreq->netfs_ops->free_subrequest(subreq);
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kfree(subreq);
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netfs_stat_d(&netfs_n_rh_sreq);
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netfs_put_request(rreq, was_async, netfs_rreq_trace_put_subreq);
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}
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void netfs_put_subrequest(struct netfs_io_subrequest *subreq, bool was_async,
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enum netfs_sreq_ref_trace what)
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{
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unsigned int debug_index = subreq->debug_index;
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unsigned int debug_id = subreq->rreq->debug_id;
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bool dead;
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int r;
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dead = __refcount_dec_and_test(&subreq->ref, &r);
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trace_netfs_sreq_ref(debug_id, debug_index, r - 1, what);
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if (dead)
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netfs_free_subrequest(subreq, was_async);
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}
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