land clio.

[fs/lustre-release.git] / lustre / llite / vvp_page.c

/* -*- mode: c; c-basic-offset: 8; indent-tabs-mode: nil; -*-
 * vim:expandtab:shiftwidth=8:tabstop=8:
 *
 * GPL HEADER START
 *
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 only,
 * as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License version 2 for more details (a copy is included
 * in the LICENSE file that accompanied this code).
 *
 * You should have received a copy of the GNU General Public License
 * version 2 along with this program; If not, see
 * http://www.sun.com/software/products/lustre/docs/GPLv2.pdf
 *
 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
 * CA 95054 USA or visit www.sun.com if you need additional information or
 * have any questions.
 *
 * GPL HEADER END
 */
/*
 * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */
/*
 * This file is part of Lustre, http://www.lustre.org/
 * Lustre is a trademark of Sun Microsystems, Inc.
 *
 * Implementation of cl_page for VVP layer.
 *
 *   Author: Nikita Danilov <nikita.danilov@sun.com>
 */

#define DEBUG_SUBSYSTEM S_LLITE

#ifndef __KERNEL__
# error This file is kernel only.
#endif

#include <obd.h>
#include <lustre_lite.h>

#include "vvp_internal.h"

/*****************************************************************************
 *
 * Page operations.
 *
 */

static void vvp_page_fini_common(struct ccc_page *cp)
{
        cfs_page_t *vmpage = cp->cpg_page;

        LASSERT(vmpage != NULL);
        page_cache_release(vmpage);
        OBD_SLAB_FREE_PTR(cp, vvp_page_kmem);
}

static void vvp_page_fini(const struct lu_env *env,
                          struct cl_page_slice *slice)
{
        struct ccc_page *cp = cl2ccc_page(slice);
        cfs_page_t *vmpage  = cp->cpg_page;

        /*
         * vmpage->private was already cleared when page was moved into
         * VPG_FREEING state.
         */
        LASSERT((struct cl_page *)vmpage->private != slice->cpl_page);
        vvp_page_fini_common(cp);
}

static void vvp_page_own(const struct lu_env *env,
                         const struct cl_page_slice *slice, struct cl_io *_)
{
        struct ccc_page *vpg    = cl2ccc_page(slice);
        cfs_page_t      *vmpage = vpg->cpg_page;

        LASSERT(vmpage != NULL);
        lock_page(vmpage);
        wait_on_page_writeback(vmpage);
}

static void vvp_page_assume(const struct lu_env *env,
                            const struct cl_page_slice *slice, struct cl_io *_)
{
        cfs_page_t *vmpage = cl2vm_page(slice);

        LASSERT(vmpage != NULL);
        LASSERT(PageLocked(vmpage));
        wait_on_page_writeback(vmpage);
}

static void vvp_page_unassume(const struct lu_env *env,
                              const struct cl_page_slice *slice,
                              struct cl_io *_)
{
        cfs_page_t *vmpage = cl2vm_page(slice);

        LASSERT(vmpage != NULL);
        LASSERT(PageLocked(vmpage));
}

static void vvp_page_disown(const struct lu_env *env,
                            const struct cl_page_slice *slice, struct cl_io *io)
{
        cfs_page_t *vmpage = cl2vm_page(slice);

        LASSERT(vmpage != NULL);
        LASSERT(PageLocked(vmpage));

        unlock_page(cl2vm_page(slice));
}

static void vvp_page_discard(const struct lu_env *env,
                             const struct cl_page_slice *slice, struct cl_io *_)
{
        cfs_page_t           *vmpage  = cl2vm_page(slice);
        struct address_space *mapping = vmpage->mapping;
        struct ccc_page      *cpg     = cl2ccc_page(slice);

        LASSERT(vmpage != NULL);
        LASSERT(PageLocked(vmpage));

        if (cpg->cpg_defer_uptodate && !cpg->cpg_ra_used)
                ll_ra_stats_inc(mapping, RA_STAT_DISCARDED);

        /*
         * truncate_complete_page() calls
         * a_ops->invalidatepage()->cl_page_delete()->vvp_page_delete().
         */
        truncate_complete_page(mapping, vmpage);
}

static int vvp_page_unmap(const struct lu_env *env,
                          const struct cl_page_slice *slice, struct cl_io *_)
{
        cfs_page_t *vmpage = cl2vm_page(slice);
        __u64       offset = vmpage->index << CFS_PAGE_SHIFT;

        LASSERT(vmpage != NULL);
        LASSERT(PageLocked(vmpage));
        /*
         * XXX is it safe to call this with the page lock held?
         */
        ll_teardown_mmaps(vmpage->mapping, offset, offset + CFS_PAGE_SIZE);
        return 0;
}

static void vvp_page_delete(const struct lu_env *env,
                            const struct cl_page_slice *slice)
{
        cfs_page_t       *vmpage = cl2vm_page(slice);
        struct inode     *inode  = vmpage->mapping->host;
        struct cl_object *obj    = slice->cpl_obj;

        LASSERT(PageLocked(vmpage));
        LASSERT((struct cl_page *)vmpage->private == slice->cpl_page);
        LASSERT(inode == ccc_object_inode(obj));

        vvp_write_complete(cl2ccc(obj), cl2ccc_page(slice));
        ClearPagePrivate(vmpage);
        vmpage->private = 0;
        /*
         * Reference from vmpage to cl_page is removed, but the reference back
         * is still here. It is removed later in vvp_page_fini().
         */
}

static void vvp_page_export(const struct lu_env *env,
                            const struct cl_page_slice *slice)
{
        cfs_page_t *vmpage = cl2vm_page(slice);

        LASSERT(vmpage != NULL);
        LASSERT(PageLocked(vmpage));
        SetPageUptodate(vmpage);
}

static int vvp_page_is_vmlocked(const struct lu_env *env,
                                const struct cl_page_slice *slice)
{
        return PageLocked(cl2vm_page(slice)) ? -EBUSY : -ENODATA;
}

static int vvp_page_prep_read(const struct lu_env *env,
                              const struct cl_page_slice *slice,
                              struct cl_io *_)
{
        ENTRY;
        /* Skip the page already marked as PG_uptodate. */
        RETURN(PageUptodate(cl2vm_page(slice)) ? -EALREADY : 0);
}

static int vvp_page_prep_write(const struct lu_env *env,
                               const struct cl_page_slice *slice,
                               struct cl_io *_)
{
        cfs_page_t *vmpage = cl2vm_page(slice);
        int result;

        if (clear_page_dirty_for_io(vmpage)) {
                set_page_writeback(vmpage);
                result = 0;
        } else
                result = -EALREADY;
        return result;
}

/**
 * Handles page transfer errors at VM level.
 *
 * This takes inode as a separate argument, because inode on which error is to
 * be set can be different from \a vmpage inode in case of direct-io.
 */
static void vvp_vmpage_error(struct inode *inode, cfs_page_t *vmpage, int ioret)
{
        if (ioret == 0)
                ClearPageError(vmpage);
        else if (ioret != -EINTR) {
                SetPageError(vmpage);
                if (ioret == -ENOSPC)
                        set_bit(AS_ENOSPC, &inode->i_mapping->flags);
                else
                        set_bit(AS_EIO, &inode->i_mapping->flags);
        }
}

static void vvp_page_completion_common(const struct lu_env *env,
                                       struct ccc_page *cp, int ioret)
{
        struct cl_page    *clp    = cp->cpg_cl.cpl_page;
        cfs_page_t        *vmpage = cp->cpg_page;
        struct inode      *inode  = ccc_object_inode(clp->cp_obj);
        struct cl_sync_io *anchor = cp->cpg_sync_io;

        LINVRNT(cl_page_is_vmlocked(env, clp));
        KLASSERT(!PageWriteback(vmpage));

        vvp_vmpage_error(inode, vmpage, ioret);

        if (anchor != NULL) {
                cp->cpg_sync_io  = NULL;
                cl_sync_io_note(anchor, ioret);
        } else if (clp->cp_type == CPT_CACHEABLE)
                unlock_page(vmpage);
}

static void vvp_page_completion_read(const struct lu_env *env,
                                     const struct cl_page_slice *slice,
                                     int ioret)
{
        struct ccc_page *cp    = cl2ccc_page(slice);
        struct cl_page  *page  = cl_page_top(slice->cpl_page);
        struct inode    *inode = ccc_object_inode(page->cp_obj);
        ENTRY;

        CL_PAGE_HEADER(D_PAGE, env, page, "completing READ with %d\n", ioret);

        if (cp->cpg_defer_uptodate)
                ll_ra_count_put(ll_i2sbi(inode), 1);

        if (ioret == 0)  {
                /* XXX: do we need this for transient pages? */
                if (!cp->cpg_defer_uptodate)
                        cl_page_export(env, page);
        } else
                cp->cpg_defer_uptodate = 0;
        vvp_page_completion_common(env, cp, ioret);

        EXIT;
}

static void vvp_page_completion_write_common(const struct lu_env *env,
                                             const struct cl_page_slice *slice,
                                             int ioret)
{
        struct ccc_page *cp = cl2ccc_page(slice);

        if (ioret == 0) {
                cp->cpg_write_queued = 0;
                /*
                 * Only ioret == 0, write succeed, then this page could be
                 * deleted from the pending_writing count.
                 */
                vvp_write_complete(cl2ccc(slice->cpl_obj), cp);
        }
        vvp_page_completion_common(env, cp, ioret);
}

static void vvp_page_completion_write(const struct lu_env *env,
                                      const struct cl_page_slice *slice,
                                      int ioret)
{
        struct ccc_page *cp     = cl2ccc_page(slice);
        struct cl_page  *pg     = slice->cpl_page;
        cfs_page_t      *vmpage = cp->cpg_page;

        ENTRY;

        LINVRNT(cl_page_is_vmlocked(env, pg));
        LASSERT(PageWriteback(vmpage));

        CL_PAGE_HEADER(D_PAGE, env, pg, "completing WRITE with %d\n", ioret);

        end_page_writeback(vmpage);
        LASSERT(!PageWriteback(vmpage));

        vvp_page_completion_write_common(env, slice, ioret);
        EXIT;
}

/**
 * Implements cl_page_operations::cpo_make_ready() method.
 *
 * This is called to yank page from the transfer page and to send it out as a
 * part of transfer. This function try-locks the page. If try-lock failed,
 * page is owned by some concurrent IO, and should be skipped (this is bad,
 * but hopefully rare situation, as it usually results in transfer being
 * shorter than possible).
 *
 * \retval 0      success, page can be placed into transfer
 *
 * \retval -EAGAIN page is either used by concurrent IO has been
 * truncated. Skip it.
 */
static int vvp_page_make_ready(const struct lu_env *env,
                               const struct cl_page_slice *slice)
{
        cfs_page_t *vmpage = cl2vm_page(slice);
        struct cl_page *pg = slice->cpl_page;
        int result;

        result = -EAGAIN;
        /* we're trying to write, but the page is locked.. come back later */
        if (!TestSetPageLocked(vmpage)) {
                if (pg->cp_state == CPS_CACHED) {
                        /*
                         * We can cancel IO if page wasn't dirty after all.
                         */
                        clear_page_dirty_for_io(vmpage);
                        /*
                         * This actually clears the dirty bit in the radix
                         * tree.
                         */
                        set_page_writeback(vmpage);

                        CL_PAGE_HEADER(D_PAGE, env, pg, "readied\n");
                        result = 0;
                } else
                        /*
                         * Page was concurrently truncated.
                         */
                        LASSERT(pg->cp_state == CPS_FREEING);
        }
        RETURN(result);
}

static int vvp_page_print(const struct lu_env *env,
                          const struct cl_page_slice *slice,
                          void *cookie, lu_printer_t printer)
{
        struct ccc_page *vp = cl2ccc_page(slice);
        cfs_page_t      *vmpage = vp->cpg_page;

        (*printer)(env, cookie, LUSTRE_VVP_NAME"-page@%p(%d:%d:%d) "
                   "vm@%p ",
                   vp, vp->cpg_defer_uptodate, vp->cpg_ra_used,
                   vp->cpg_write_queued, vmpage);
        if (vmpage != NULL) {
                (*printer)(env, cookie, "%lx %d:%d %lx %lu %slru",
                           (long)vmpage->flags, page_count(vmpage),
                           page_mapcount(vmpage), vmpage->private,
                           page_index(vmpage),
                           list_empty(&vmpage->lru) ? "not-" : "");
        }
        (*printer)(env, cookie, "\n");
        return 0;
}

static int osc_page_cancel(const struct lu_env *env,
                           const struct cl_page_slice *slice)
{
        struct ccc_page *vp = cl2ccc_page(slice);
        LASSERT(vp->cpg_sync_io != NULL);
        return 0;
}

static const struct cl_page_operations vvp_page_ops = {
        .cpo_own           = vvp_page_own,
        .cpo_assume        = vvp_page_assume,
        .cpo_unassume      = vvp_page_unassume,
        .cpo_disown        = vvp_page_disown,
        .cpo_vmpage        = ccc_page_vmpage,
        .cpo_discard       = vvp_page_discard,
        .cpo_delete        = vvp_page_delete,
        .cpo_unmap         = vvp_page_unmap,
        .cpo_export        = vvp_page_export,
        .cpo_is_vmlocked   = vvp_page_is_vmlocked,
        .cpo_fini          = vvp_page_fini,
        .cpo_print         = vvp_page_print,
        .cpo_is_under_lock = ccc_page_is_under_lock,
        .cpo_cancel        = osc_page_cancel,
        .io = {
                [CRT_READ] = {
                        .cpo_prep        = vvp_page_prep_read,
                        .cpo_completion  = vvp_page_completion_read,
                        .cpo_make_ready  = ccc_fail,
                },
                [CRT_WRITE] = {
                        .cpo_prep        = vvp_page_prep_write,
                        .cpo_completion  = vvp_page_completion_write,
                        .cpo_make_ready  = vvp_page_make_ready,
                }
        }
};

static void vvp_transient_page_verify(const struct cl_page *page)
{
        struct inode *inode = ccc_object_inode(page->cp_obj);

        LASSERT(!TRYLOCK_INODE_MUTEX(inode));
        /* LASSERT_SEM_LOCKED(&inode->i_alloc_sem); */
}

static void vvp_transient_page_own(const struct lu_env *env,
                                   const struct cl_page_slice *slice,
                                   struct cl_io *_)
{
        vvp_transient_page_verify(slice->cpl_page);
}

static void vvp_transient_page_assume(const struct lu_env *env,
                                      const struct cl_page_slice *slice,
                                      struct cl_io *_)
{
        vvp_transient_page_verify(slice->cpl_page);
}

static void vvp_transient_page_unassume(const struct lu_env *env,
                                        const struct cl_page_slice *slice,
                                        struct cl_io *_)
{
        vvp_transient_page_verify(slice->cpl_page);
}

static void vvp_transient_page_disown(const struct lu_env *env,
                                      const struct cl_page_slice *slice,
                                      struct cl_io *_)
{
        vvp_transient_page_verify(slice->cpl_page);
}

static void vvp_transient_page_discard(const struct lu_env *env,
                                       const struct cl_page_slice *slice,
                                       struct cl_io *_)
{
        struct cl_page *page = slice->cpl_page;

        vvp_transient_page_verify(slice->cpl_page);

        /*
         * For transient pages, remove it from the radix tree.
         */
        cl_page_delete(env, page);
}

static int vvp_transient_page_is_vmlocked(const struct lu_env *env,
                                          const struct cl_page_slice *slice)
{
        struct inode    *inode = ccc_object_inode(slice->cpl_obj);
        int              locked;

        locked = !TRYLOCK_INODE_MUTEX(inode);
        if (!locked)
                UNLOCK_INODE_MUTEX(inode);
        return locked ? -EBUSY : -ENODATA;
}

static void
vvp_transient_page_completion_write(const struct lu_env *env,
                                    const struct cl_page_slice *slice,
                                    int ioret)
{
        vvp_transient_page_verify(slice->cpl_page);
        vvp_page_completion_write_common(env, slice, ioret);
}


static void vvp_transient_page_fini(const struct lu_env *env,
                                    struct cl_page_slice *slice)
{
        struct ccc_page *cp = cl2ccc_page(slice);
        struct cl_page *clp = slice->cpl_page;
        struct ccc_object *clobj = cl2ccc(clp->cp_obj);

        vvp_page_fini_common(cp);
        LASSERT(!TRYLOCK_INODE_MUTEX(clobj->cob_inode));
        clobj->cob_transient_pages--;
}

static const struct cl_page_operations vvp_transient_page_ops = {
        .cpo_own           = vvp_transient_page_own,
        .cpo_assume        = vvp_transient_page_assume,
        .cpo_unassume      = vvp_transient_page_unassume,
        .cpo_disown        = vvp_transient_page_disown,
        .cpo_discard       = vvp_transient_page_discard,
        .cpo_vmpage        = ccc_page_vmpage,
        .cpo_fini          = vvp_transient_page_fini,
        .cpo_is_vmlocked   = vvp_transient_page_is_vmlocked,
        .cpo_print         = vvp_page_print,
        .cpo_is_under_lock = ccc_page_is_under_lock,
        .cpo_cancel        = osc_page_cancel,
        .io = {
                [CRT_READ] = {
                        .cpo_prep        = ccc_transient_page_prep,
                        .cpo_completion  = vvp_page_completion_read,
                },
                [CRT_WRITE] = {
                        .cpo_prep        = ccc_transient_page_prep,
                        .cpo_completion  = vvp_transient_page_completion_write,
                }
        }
};

struct cl_page *vvp_page_init(const struct lu_env *env, struct cl_object *obj,
                              struct cl_page *page, cfs_page_t *vmpage)
{
        struct ccc_page *cpg;
        int result;

        CLOBINVRNT(env, obj, ccc_object_invariant(obj));

        OBD_SLAB_ALLOC_PTR(cpg, vvp_page_kmem);
        if (cpg != NULL) {
                cpg->cpg_page = vmpage;
                page_cache_get(vmpage);

                CFS_INIT_LIST_HEAD(&cpg->cpg_pending_linkage);
                if (page->cp_type == CPT_CACHEABLE) {
                        SetPagePrivate(vmpage);
                        vmpage->private = (unsigned long)page;
                        cl_page_slice_add(page, &cpg->cpg_cl, obj,
                                          &vvp_page_ops);
                } else {
                        struct ccc_object *clobj = cl2ccc(obj);

                        LASSERT(!TRYLOCK_INODE_MUTEX(clobj->cob_inode));
                        cl_page_slice_add(page, &cpg->cpg_cl, obj,
                                          &vvp_transient_page_ops);
                        clobj->cob_transient_pages++;
                }
                result = 0;
        } else
                result = -ENOMEM;
        return ERR_PTR(result);
}