forked from Minki/linux
044b9414c7
This area of the code has always been a bit delicate due to the subtleties of lock ordering. The problem is that for "normal" alloc/dealloc, we always grab the inode locks first and the rgrp lock later. In order to ensure no races in looking up the unlinked, but still allocated inodes, we need to hold the rgrp lock when we do the lookup, which means that we can't take the inode glock. The solution is to borrow the technique already used by NFS to solve what is essentially the same problem (given an inode number, look up the inode carefully, checking that it really is in the expected state). We cannot do that directly from the allocation code (lock ordering again) so we give the job to the pre-existing delete workqueue and carry on with the allocation as normal. If we find there is no space, we do a journal flush (required anyway if space from a deallocation is to be released) which should block against the pending deallocations, so we should always get the space back. Signed-off-by: Steven Whitehouse <swhiteho@redhat.com>
212 lines
5.0 KiB
C
212 lines
5.0 KiB
C
/*
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* Copyright (C) Sistina Software, Inc. 1997-2003 All rights reserved.
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* Copyright (C) 2004-2006 Red Hat, Inc. All rights reserved.
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*
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* This copyrighted material is made available to anyone wishing to use,
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* modify, copy, or redistribute it subject to the terms and conditions
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* of the GNU General Public License version 2.
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*/
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#include <linux/spinlock.h>
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#include <linux/completion.h>
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#include <linux/buffer_head.h>
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#include <linux/exportfs.h>
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#include <linux/gfs2_ondisk.h>
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#include <linux/crc32.h>
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#include "gfs2.h"
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#include "incore.h"
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#include "dir.h"
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#include "glock.h"
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#include "glops.h"
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#include "inode.h"
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#include "super.h"
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#include "rgrp.h"
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#include "util.h"
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#define GFS2_SMALL_FH_SIZE 4
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#define GFS2_LARGE_FH_SIZE 8
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#define GFS2_OLD_FH_SIZE 10
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static int gfs2_encode_fh(struct dentry *dentry, __u32 *p, int *len,
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int connectable)
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{
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__be32 *fh = (__force __be32 *)p;
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struct inode *inode = dentry->d_inode;
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struct super_block *sb = inode->i_sb;
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struct gfs2_inode *ip = GFS2_I(inode);
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if (*len < GFS2_SMALL_FH_SIZE ||
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(connectable && *len < GFS2_LARGE_FH_SIZE))
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return 255;
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fh[0] = cpu_to_be32(ip->i_no_formal_ino >> 32);
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fh[1] = cpu_to_be32(ip->i_no_formal_ino & 0xFFFFFFFF);
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fh[2] = cpu_to_be32(ip->i_no_addr >> 32);
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fh[3] = cpu_to_be32(ip->i_no_addr & 0xFFFFFFFF);
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*len = GFS2_SMALL_FH_SIZE;
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if (!connectable || inode == sb->s_root->d_inode)
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return *len;
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spin_lock(&dentry->d_lock);
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inode = dentry->d_parent->d_inode;
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ip = GFS2_I(inode);
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igrab(inode);
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spin_unlock(&dentry->d_lock);
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fh[4] = cpu_to_be32(ip->i_no_formal_ino >> 32);
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fh[5] = cpu_to_be32(ip->i_no_formal_ino & 0xFFFFFFFF);
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fh[6] = cpu_to_be32(ip->i_no_addr >> 32);
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fh[7] = cpu_to_be32(ip->i_no_addr & 0xFFFFFFFF);
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*len = GFS2_LARGE_FH_SIZE;
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iput(inode);
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return *len;
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}
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struct get_name_filldir {
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struct gfs2_inum_host inum;
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char *name;
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};
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static int get_name_filldir(void *opaque, const char *name, int length,
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loff_t offset, u64 inum, unsigned int type)
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{
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struct get_name_filldir *gnfd = opaque;
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if (inum != gnfd->inum.no_addr)
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return 0;
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memcpy(gnfd->name, name, length);
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gnfd->name[length] = 0;
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return 1;
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}
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static int gfs2_get_name(struct dentry *parent, char *name,
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struct dentry *child)
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{
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struct inode *dir = parent->d_inode;
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struct inode *inode = child->d_inode;
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struct gfs2_inode *dip, *ip;
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struct get_name_filldir gnfd;
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struct gfs2_holder gh;
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u64 offset = 0;
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int error;
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if (!dir)
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return -EINVAL;
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if (!S_ISDIR(dir->i_mode) || !inode)
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return -EINVAL;
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dip = GFS2_I(dir);
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ip = GFS2_I(inode);
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*name = 0;
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gnfd.inum.no_addr = ip->i_no_addr;
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gnfd.inum.no_formal_ino = ip->i_no_formal_ino;
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gnfd.name = name;
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error = gfs2_glock_nq_init(dip->i_gl, LM_ST_SHARED, 0, &gh);
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if (error)
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return error;
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error = gfs2_dir_read(dir, &offset, &gnfd, get_name_filldir);
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gfs2_glock_dq_uninit(&gh);
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if (!error && !*name)
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error = -ENOENT;
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return error;
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}
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static struct dentry *gfs2_get_parent(struct dentry *child)
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{
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struct dentry *dentry;
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dentry = d_obtain_alias(gfs2_lookupi(child->d_inode, &gfs2_qdotdot, 1));
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if (!IS_ERR(dentry))
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dentry->d_op = &gfs2_dops;
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return dentry;
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}
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static struct dentry *gfs2_get_dentry(struct super_block *sb,
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struct gfs2_inum_host *inum)
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{
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struct gfs2_sbd *sdp = sb->s_fs_info;
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struct inode *inode;
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struct dentry *dentry;
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inode = gfs2_ilookup(sb, inum->no_addr);
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if (inode) {
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if (GFS2_I(inode)->i_no_formal_ino != inum->no_formal_ino) {
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iput(inode);
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return ERR_PTR(-ESTALE);
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}
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goto out_inode;
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}
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inode = gfs2_lookup_by_inum(sdp, inum->no_addr, &inum->no_formal_ino,
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GFS2_BLKST_DINODE);
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if (IS_ERR(inode))
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return ERR_CAST(inode);
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out_inode:
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dentry = d_obtain_alias(inode);
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if (!IS_ERR(dentry))
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dentry->d_op = &gfs2_dops;
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return dentry;
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}
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static struct dentry *gfs2_fh_to_dentry(struct super_block *sb, struct fid *fid,
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int fh_len, int fh_type)
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{
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struct gfs2_inum_host this;
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__be32 *fh = (__force __be32 *)fid->raw;
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switch (fh_type) {
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case GFS2_SMALL_FH_SIZE:
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case GFS2_LARGE_FH_SIZE:
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case GFS2_OLD_FH_SIZE:
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this.no_formal_ino = ((u64)be32_to_cpu(fh[0])) << 32;
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this.no_formal_ino |= be32_to_cpu(fh[1]);
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this.no_addr = ((u64)be32_to_cpu(fh[2])) << 32;
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this.no_addr |= be32_to_cpu(fh[3]);
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return gfs2_get_dentry(sb, &this);
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default:
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return NULL;
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}
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}
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static struct dentry *gfs2_fh_to_parent(struct super_block *sb, struct fid *fid,
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int fh_len, int fh_type)
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{
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struct gfs2_inum_host parent;
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__be32 *fh = (__force __be32 *)fid->raw;
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switch (fh_type) {
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case GFS2_LARGE_FH_SIZE:
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case GFS2_OLD_FH_SIZE:
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parent.no_formal_ino = ((u64)be32_to_cpu(fh[4])) << 32;
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parent.no_formal_ino |= be32_to_cpu(fh[5]);
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parent.no_addr = ((u64)be32_to_cpu(fh[6])) << 32;
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parent.no_addr |= be32_to_cpu(fh[7]);
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return gfs2_get_dentry(sb, &parent);
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default:
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return NULL;
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}
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}
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const struct export_operations gfs2_export_ops = {
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.encode_fh = gfs2_encode_fh,
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.fh_to_dentry = gfs2_fh_to_dentry,
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.fh_to_parent = gfs2_fh_to_parent,
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.get_name = gfs2_get_name,
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.get_parent = gfs2_get_parent,
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};
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