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|
/* SPDX-License-Identifier: GPL-2.0 */
#ifndef _FS_CEPH_SUPER_H
#define _FS_CEPH_SUPER_H
#include <linux/ceph/ceph_debug.h>
#include <asm/unaligned.h>
#include <linux/backing-dev.h>
#include <linux/completion.h>
#include <linux/exportfs.h>
#include <linux/fs.h>
#include <linux/mempool.h>
#include <linux/pagemap.h>
#include <linux/wait.h>
#include <linux/writeback.h>
#include <linux/slab.h>
#include <linux/posix_acl.h>
#include <linux/refcount.h>
#include <linux/security.h>
#include <linux/ceph/libceph.h>
#ifdef CONFIG_CEPH_FSCACHE
#include <linux/fscache.h>
#endif
/* f_type in struct statfs */
#define CEPH_SUPER_MAGIC 0x00c36400
/* large granularity for statfs utilization stats to facilitate
* large volume sizes on 32-bit machines. */
#define CEPH_BLOCK_SHIFT 22 /* 4 MB */
#define CEPH_BLOCK (1 << CEPH_BLOCK_SHIFT)
#define CEPH_MOUNT_OPT_CLEANRECOVER (1<<1) /* auto reonnect (clean mode) after blocklisted */
#define CEPH_MOUNT_OPT_DIRSTAT (1<<4) /* `cat dirname` for stats */
#define CEPH_MOUNT_OPT_RBYTES (1<<5) /* dir st_bytes = rbytes */
#define CEPH_MOUNT_OPT_NOASYNCREADDIR (1<<7) /* no dcache readdir */
#define CEPH_MOUNT_OPT_INO32 (1<<8) /* 32 bit inos */
#define CEPH_MOUNT_OPT_DCACHE (1<<9) /* use dcache for readdir etc */
#define CEPH_MOUNT_OPT_FSCACHE (1<<10) /* use fscache */
#define CEPH_MOUNT_OPT_NOPOOLPERM (1<<11) /* no pool permission check */
#define CEPH_MOUNT_OPT_MOUNTWAIT (1<<12) /* mount waits if no mds is up */
#define CEPH_MOUNT_OPT_NOQUOTADF (1<<13) /* no root dir quota in statfs */
#define CEPH_MOUNT_OPT_NOCOPYFROM (1<<14) /* don't use RADOS 'copy-from' op */
#define CEPH_MOUNT_OPT_ASYNC_DIROPS (1<<15) /* allow async directory ops */
#define CEPH_MOUNT_OPT_DEFAULT \
(CEPH_MOUNT_OPT_DCACHE | \
CEPH_MOUNT_OPT_NOCOPYFROM)
#define ceph_set_mount_opt(fsc, opt) \
(fsc)->mount_options->flags |= CEPH_MOUNT_OPT_##opt
#define ceph_clear_mount_opt(fsc, opt) \
(fsc)->mount_options->flags &= ~CEPH_MOUNT_OPT_##opt
#define ceph_test_mount_opt(fsc, opt) \
(!!((fsc)->mount_options->flags & CEPH_MOUNT_OPT_##opt))
/* max size of osd read request, limited by libceph */
#define CEPH_MAX_READ_SIZE CEPH_MSG_MAX_DATA_LEN
/* osd has a configurable limitaion of max write size.
* CEPH_MSG_MAX_DATA_LEN should be small enough. */
#define CEPH_MAX_WRITE_SIZE CEPH_MSG_MAX_DATA_LEN
#define CEPH_RASIZE_DEFAULT (8192*1024) /* max readahead */
#define CEPH_MAX_READDIR_DEFAULT 1024
#define CEPH_MAX_READDIR_BYTES_DEFAULT (512*1024)
#define CEPH_SNAPDIRNAME_DEFAULT ".snap"
/*
* Delay telling the MDS we no longer want caps, in case we reopen
* the file. Delay a minimum amount of time, even if we send a cap
* message for some other reason. Otherwise, take the oppotunity to
* update the mds to avoid sending another message later.
*/
#define CEPH_CAPS_WANTED_DELAY_MIN_DEFAULT 5 /* cap release delay */
#define CEPH_CAPS_WANTED_DELAY_MAX_DEFAULT 60 /* cap release delay */
struct ceph_mount_options {
unsigned int flags;
unsigned int wsize; /* max write size */
unsigned int rsize; /* max read size */
unsigned int rasize; /* max readahead */
unsigned int congestion_kb; /* max writeback in flight */
unsigned int caps_wanted_delay_min, caps_wanted_delay_max;
int caps_max;
unsigned int max_readdir; /* max readdir result (entries) */
unsigned int max_readdir_bytes; /* max readdir result (bytes) */
/*
* everything above this point can be memcmp'd; everything below
* is handled in compare_mount_options()
*/
char *snapdir_name; /* default ".snap" */
char *mds_namespace; /* default NULL */
char *server_path; /* default NULL (means "/") */
char *fscache_uniq; /* default NULL */
};
struct ceph_fs_client {
struct super_block *sb;
struct list_head metric_wakeup;
struct ceph_mount_options *mount_options;
struct ceph_client *client;
int mount_state;
bool blocklisted;
bool have_copy_from2;
u32 filp_gen;
loff_t max_file_size;
struct ceph_mds_client *mdsc;
atomic_long_t writeback_count;
struct workqueue_struct *inode_wq;
struct workqueue_struct *cap_wq;
#ifdef CONFIG_DEBUG_FS
struct dentry *debugfs_dentry_lru, *debugfs_caps;
struct dentry *debugfs_congestion_kb;
struct dentry *debugfs_bdi;
struct dentry *debugfs_mdsc, *debugfs_mdsmap;
struct dentry *debugfs_metric;
struct dentry *debugfs_status;
struct dentry *debugfs_mds_sessions;
#endif
#ifdef CONFIG_CEPH_FSCACHE
struct fscache_cookie *fscache;
#endif
};
/*
* File i/o capability. This tracks shared state with the metadata
* server that allows us to cache or writeback attributes or to read
* and write data. For any given inode, we should have one or more
* capabilities, one issued by each metadata server, and our
* cumulative access is the OR of all issued capabilities.
*
* Each cap is referenced by the inode's i_caps rbtree and by per-mds
* session capability lists.
*/
struct ceph_cap {
struct ceph_inode_info *ci;
struct rb_node ci_node; /* per-ci cap tree */
struct ceph_mds_session *session;
struct list_head session_caps; /* per-session caplist */
u64 cap_id; /* unique cap id (mds provided) */
union {
/* in-use caps */
struct {
int issued; /* latest, from the mds */
int implemented; /* implemented superset of
issued (for revocation) */
int mds; /* mds index for this cap */
int mds_wanted; /* caps wanted from this mds */
};
/* caps to release */
struct {
u64 cap_ino;
int queue_release;
};
};
u32 seq, issue_seq, mseq;
u32 cap_gen; /* active/stale cycle */
unsigned long last_used;
struct list_head caps_item;
};
#define CHECK_CAPS_AUTHONLY 1 /* only check auth cap */
#define CHECK_CAPS_FLUSH 2 /* flush any dirty caps */
#define CHECK_CAPS_NOINVAL 4 /* don't invalidate pagecache */
struct ceph_cap_flush {
u64 tid;
int caps; /* 0 means capsnap */
bool wake; /* wake up flush waiters when finish ? */
struct list_head g_list; // global
struct list_head i_list; // per inode
};
/*
* Snapped cap state that is pending flush to mds. When a snapshot occurs,
* we first complete any in-process sync writes and writeback any dirty
* data before flushing the snapped state (tracked here) back to the MDS.
*/
struct ceph_cap_snap {
refcount_t nref;
struct list_head ci_item;
struct ceph_cap_flush cap_flush;
u64 follows;
int issued, dirty;
struct ceph_snap_context *context;
umode_t mode;
kuid_t uid;
kgid_t gid;
struct ceph_buffer *xattr_blob;
u64 xattr_version;
u64 size;
u64 change_attr;
struct timespec64 mtime, atime, ctime, btime;
u64 time_warp_seq;
u64 truncate_size;
u32 truncate_seq;
int writing; /* a sync write is still in progress */
int dirty_pages; /* dirty pages awaiting writeback */
bool inline_data;
bool need_flush;
};
static inline void ceph_put_cap_snap(struct ceph_cap_snap *capsnap)
{
if (refcount_dec_and_test(&capsnap->nref)) {
if (capsnap->xattr_blob)
ceph_buffer_put(capsnap->xattr_blob);
kfree(capsnap);
}
}
/*
* The frag tree describes how a directory is fragmented, potentially across
* multiple metadata servers. It is also used to indicate points where
* metadata authority is delegated, and whether/where metadata is replicated.
*
* A _leaf_ frag will be present in the i_fragtree IFF there is
* delegation info. That is, if mds >= 0 || ndist > 0.
*/
#define CEPH_MAX_DIRFRAG_REP 4
struct ceph_inode_frag {
struct rb_node node;
/* fragtree state */
u32 frag;
int split_by; /* i.e. 2^(split_by) children */
/* delegation and replication info */
int mds; /* -1 if same authority as parent */
int ndist; /* >0 if replicated */
int dist[CEPH_MAX_DIRFRAG_REP];
};
/*
* We cache inode xattrs as an encoded blob until they are first used,
* at which point we parse them into an rbtree.
*/
struct ceph_inode_xattr {
struct rb_node node;
const char *name;
int name_len;
const char *val;
int val_len;
int dirty;
int should_free_name;
int should_free_val;
};
/*
* Ceph dentry state
*/
struct ceph_dentry_info {
struct dentry *dentry;
struct ceph_mds_session *lease_session;
struct list_head lease_list;
unsigned flags;
int lease_shared_gen;
u32 lease_gen;
u32 lease_seq;
unsigned long lease_renew_after, lease_renew_from;
unsigned long time;
u64 offset;
};
#define CEPH_DENTRY_REFERENCED 1
#define CEPH_DENTRY_LEASE_LIST 2
#define CEPH_DENTRY_SHRINK_LIST 4
#define CEPH_DENTRY_PRIMARY_LINK 8
struct ceph_inode_xattrs_info {
/*
* (still encoded) xattr blob. we avoid the overhead of parsing
* this until someone actually calls getxattr, etc.
*
* blob->vec.iov_len == 4 implies there are no xattrs; blob ==
* NULL means we don't know.
*/
struct ceph_buffer *blob, *prealloc_blob;
struct rb_root index;
bool dirty;
int count;
int names_size;
int vals_size;
u64 version, index_version;
};
/*
* Ceph inode.
*/
struct ceph_inode_info {
struct ceph_vino i_vino; /* ceph ino + snap */
spinlock_t i_ceph_lock;
u64 i_version;
u64 i_inline_version;
u32 i_time_warp_seq;
unsigned long i_ceph_flags;
atomic64_t i_release_count;
atomic64_t i_ordered_count;
atomic64_t i_complete_seq[2];
struct ceph_dir_layout i_dir_layout;
struct ceph_file_layout i_layout;
struct ceph_file_layout i_cached_layout; // for async creates
char *i_symlink;
/* for dirs */
struct timespec64 i_rctime;
u64 i_rbytes, i_rfiles, i_rsubdirs;
u64 i_files, i_subdirs;
/* quotas */
u64 i_max_bytes, i_max_files;
s32 i_dir_pin;
struct rb_root i_fragtree;
int i_fragtree_nsplits;
struct mutex i_fragtree_mutex;
struct ceph_inode_xattrs_info i_xattrs;
/* capabilities. protected _both_ by i_ceph_lock and cap->session's
* s_mutex. */
struct rb_root i_caps; /* cap list */
struct ceph_cap *i_auth_cap; /* authoritative cap, if any */
unsigned i_dirty_caps, i_flushing_caps; /* mask of dirtied fields */
/*
* Link to the auth cap's session's s_cap_dirty list. s_cap_dirty
* is protected by the mdsc->cap_dirty_lock, but each individual item
* is also protected by the inode's i_ceph_lock. Walking s_cap_dirty
* requires the mdsc->cap_dirty_lock. List presence for an item can
* be tested under the i_ceph_lock. Changing anything requires both.
*/
struct list_head i_dirty_item;
/*
* Link to session's s_cap_flushing list. Protected in a similar
* fashion to i_dirty_item, but also by the s_mutex for changes. The
* s_cap_flushing list can be walked while holding either the s_mutex
* or msdc->cap_dirty_lock. List presence can also be checked while
* holding the i_ceph_lock for this inode.
*/
struct list_head i_flushing_item;
/* we need to track cap writeback on a per-cap-bit basis, to allow
* overlapping, pipelined cap flushes to the mds. we can probably
* reduce the tid to 8 bits if we're concerned about inode size. */
struct ceph_cap_flush *i_prealloc_cap_flush;
struct list_head i_cap_flush_list;
wait_queue_head_t i_cap_wq; /* threads waiting on a capability */
unsigned long i_hold_caps_max; /* jiffies */
struct list_head i_cap_delay_list; /* for delayed cap release to mds */
struct ceph_cap_reservation i_cap_migration_resv;
struct list_head i_cap_snaps; /* snapped state pending flush to mds */
struct ceph_snap_context *i_head_snapc; /* set if wr_buffer_head > 0 or
dirty|flushing caps */
unsigned i_snap_caps; /* cap bits for snapped files */
unsigned long i_last_rd;
unsigned long i_last_wr;
int i_nr_by_mode[CEPH_FILE_MODE_BITS]; /* open file counts */
struct mutex i_truncate_mutex;
u32 i_truncate_seq; /* last truncate to smaller size */
u64 i_truncate_size; /* and the size we last truncated down to */
int i_truncate_pending; /* still need to call vmtruncate */
u64 i_max_size; /* max file size authorized by mds */
u64 i_reported_size; /* (max_)size reported to or requested of mds */
u64 i_wanted_max_size; /* offset we'd like to write too */
u64 i_requested_max_size; /* max_size we've requested */
/* held references to caps */
int i_pin_ref;
int i_rd_ref, i_rdcache_ref, i_wr_ref, i_wb_ref, i_fx_ref;
int i_wrbuffer_ref, i_wrbuffer_ref_head;
atomic_t i_filelock_ref;
atomic_t i_shared_gen; /* increment each time we get FILE_SHARED */
u32 i_rdcache_gen; /* incremented each time we get FILE_CACHE. */
u32 i_rdcache_revoking; /* RDCACHE gen to async invalidate, if any */
struct list_head i_unsafe_dirops; /* uncommitted mds dir ops */
struct list_head i_unsafe_iops; /* uncommitted mds inode ops */
spinlock_t i_unsafe_lock;
union {
struct ceph_snap_realm *i_snap_realm; /* snap realm (if caps) */
struct ceph_snapid_map *i_snapid_map; /* snapid -> dev_t */
};
int i_snap_realm_counter; /* snap realm (if caps) */
struct list_head i_snap_realm_item;
struct list_head i_snap_flush_item;
struct timespec64 i_btime;
struct timespec64 i_snap_btime;
struct work_struct i_work;
unsigned long i_work_mask;
#ifdef CONFIG_CEPH_FSCACHE
struct fscache_cookie *fscache;
u32 i_fscache_gen;
#endif
errseq_t i_meta_err;
struct inode vfs_inode; /* at end */
};
static inline struct ceph_inode_info *
ceph_inode(const struct inode *inode)
{
return container_of(inode, struct ceph_inode_info, vfs_inode);
}
static inline struct ceph_fs_client *
ceph_inode_to_client(const struct inode *inode)
{
return (struct ceph_fs_client *)inode->i_sb->s_fs_info;
}
static inline struct ceph_fs_client *
ceph_sb_to_client(const struct super_block *sb)
{
return (struct ceph_fs_client *)sb->s_fs_info;
}
static inline struct ceph_mds_client *
ceph_sb_to_mdsc(const struct super_block *sb)
{
return (struct ceph_mds_client *)ceph_sb_to_client(sb)->mdsc;
}
static inline struct ceph_vino
ceph_vino(const struct inode *inode)
{
return ceph_inode(inode)->i_vino;
}
static inline u32 ceph_ino_to_ino32(u64 vino)
{
u32 ino = vino & 0xffffffff;
ino ^= vino >> 32;
if (!ino)
ino = 2;
return ino;
}
/*
* Inode numbers in cephfs are 64 bits, but inode->i_ino is 32-bits on
* some arches. We generally do not use this value inside the ceph driver, but
* we do want to set it to something, so that generic vfs code has an
* appropriate value for tracepoints and the like.
*/
static inline ino_t ceph_vino_to_ino_t(struct ceph_vino vino)
{
if (sizeof(ino_t) == sizeof(u32))
return ceph_ino_to_ino32(vino.ino);
return (ino_t)vino.ino;
}
/* for printf-style formatting */
#define ceph_vinop(i) ceph_inode(i)->i_vino.ino, ceph_inode(i)->i_vino.snap
static inline u64 ceph_ino(struct inode *inode)
{
return ceph_inode(inode)->i_vino.ino;
}
static inline u64 ceph_snap(struct inode *inode)
{
return ceph_inode(inode)->i_vino.snap;
}
/**
* ceph_present_ino - format an inode number for presentation to userland
* @sb: superblock where the inode lives
* @ino: inode number to (possibly) convert
*
* If the user mounted with the ino32 option, then the 64-bit value needs
* to be converted to something that can fit inside 32 bits. Note that
* internal kernel code never uses this value, so this is entirely for
* userland consumption.
*/
static inline u64 ceph_present_ino(struct super_block *sb, u64 ino)
{
if (unlikely(ceph_test_mount_opt(ceph_sb_to_client(sb), INO32)))
return ceph_ino_to_ino32(ino);
return ino;
}
static inline u64 ceph_present_inode(struct inode *inode)
{
return ceph_present_ino(inode->i_sb, ceph_ino(inode));
}
static inline int ceph_ino_compare(struct inode *inode, void *data)
{
struct ceph_vino *pvino = (struct ceph_vino *)data;
struct ceph_inode_info *ci = ceph_inode(inode);
return ci->i_vino.ino == pvino->ino &&
ci->i_vino.snap == pvino->snap;
}
static inline struct inode *ceph_find_inode(struct super_block *sb,
struct ceph_vino vino)
{
/*
* NB: The hashval will be run through the fs/inode.c hash function
* anyway, so there is no need to squash the inode number down to
* 32-bits first. Just use low-order bits on arches with 32-bit long.
*/
return ilookup5(sb, (unsigned long)vino.ino, ceph_ino_compare, &vino);
}
/*
* Ceph inode.
*/
#define CEPH_I_DIR_ORDERED (1 << 0) /* dentries in dir are ordered */
#define CEPH_I_FLUSH (1 << 2) /* do not delay flush of dirty metadata */
#define CEPH_I_POOL_PERM (1 << 3) /* pool rd/wr bits are valid */
#define CEPH_I_POOL_RD (1 << 4) /* can read from pool */
#define CEPH_I_POOL_WR (1 << 5) /* can write to pool */
#define CEPH_I_SEC_INITED (1 << 6) /* security initialized */
#define CEPH_I_KICK_FLUSH (1 << 7) /* kick flushing caps */
#define CEPH_I_FLUSH_SNAPS (1 << 8) /* need flush snapss */
#define CEPH_I_ERROR_WRITE (1 << 9) /* have seen write errors */
#define CEPH_I_ERROR_FILELOCK (1 << 10) /* have seen file lock errors */
#define CEPH_I_ODIRECT (1 << 11) /* inode in direct I/O mode */
#define CEPH_ASYNC_CREATE_BIT (12) /* async create in flight for this */
#define CEPH_I_ASYNC_CREATE (1 << CEPH_ASYNC_CREATE_BIT)
/*
* Masks of ceph inode work.
*/
#define CEPH_I_WORK_WRITEBACK 0
#define CEPH_I_WORK_INVALIDATE_PAGES 1
#define CEPH_I_WORK_VMTRUNCATE 2
#define CEPH_I_WORK_CHECK_CAPS 3
#define CEPH_I_WORK_FLUSH_SNAPS 4
/*
* We set the ERROR_WRITE bit when we start seeing write errors on an inode
* and then clear it when they start succeeding. Note that we do a lockless
* check first, and only take the lock if it looks like it needs to be changed.
* The write submission code just takes this as a hint, so we're not too
* worried if a few slip through in either direction.
*/
static inline void ceph_set_error_write(struct ceph_inode_info *ci)
{
if (!(READ_ONCE(ci->i_ceph_flags) & CEPH_I_ERROR_WRITE)) {
spin_lock(&ci->i_ceph_lock);
ci->i_ceph_flags |= CEPH_I_ERROR_WRITE;
spin_unlock(&ci->i_ceph_lock);
}
}
static inline void ceph_clear_error_write(struct ceph_inode_info *ci)
{
if (READ_ONCE(ci->i_ceph_flags) & CEPH_I_ERROR_WRITE) {
spin_lock(&ci->i_ceph_lock);
ci->i_ceph_flags &= ~CEPH_I_ERROR_WRITE;
spin_unlock(&ci->i_ceph_lock);
}
}
static inline void __ceph_dir_set_complete(struct ceph_inode_info *ci,
long long release_count,
long long ordered_count)
{
/*
* Makes sure operations that setup readdir cache (update page
* cache and i_size) are strongly ordered w.r.t. the following
* atomic64_set() operations.
*/
smp_mb();
atomic64_set(&ci->i_complete_seq[0], release_count);
atomic64_set(&ci->i_complete_seq[1], ordered_count);
}
static inline void __ceph_dir_clear_complete(struct ceph_inode_info *ci)
{
atomic64_inc(&ci->i_release_count);
}
static inline void __ceph_dir_clear_ordered(struct ceph_inode_info *ci)
{
atomic64_inc(&ci->i_ordered_count);
}
static inline bool __ceph_dir_is_complete(struct ceph_inode_info *ci)
{
return atomic64_read(&ci->i_complete_seq[0]) ==
atomic64_read(&ci->i_release_count);
}
static inline bool __ceph_dir_is_complete_ordered(struct ceph_inode_info *ci)
{
return atomic64_read(&ci->i_complete_seq[0]) ==
atomic64_read(&ci->i_release_count) &&
atomic64_read(&ci->i_complete_seq[1]) ==
atomic64_read(&ci->i_ordered_count);
}
static inline void ceph_dir_clear_complete(struct inode *inode)
{
__ceph_dir_clear_complete(ceph_inode(inode));
}
static inline void ceph_dir_clear_ordered(struct inode *inode)
{
__ceph_dir_clear_ordered(ceph_inode(inode));
}
static inline bool ceph_dir_is_complete_ordered(struct inode *inode)
{
bool ret = __ceph_dir_is_complete_ordered(ceph_inode(inode));
smp_rmb();
return ret;
}
/* find a specific frag @f */
extern struct ceph_inode_frag *__ceph_find_frag(struct ceph_inode_info *ci,
u32 f);
/*
* choose fragment for value @v. copy frag content to pfrag, if leaf
* exists
*/
extern u32 ceph_choose_frag(struct ceph_inode_info *ci, u32 v,
struct ceph_inode_frag *pfrag,
int *found);
static inline struct ceph_dentry_info *ceph_dentry(const struct dentry *dentry)
{
return (struct ceph_dentry_info *)dentry->d_fsdata;
}
/*
* caps helpers
*/
static inline bool __ceph_is_any_real_caps(struct ceph_inode_info *ci)
{
return !RB_EMPTY_ROOT(&ci->i_caps);
}
extern int __ceph_caps_issued(struct ceph_inode_info *ci, int *implemented);
extern int __ceph_caps_issued_mask(struct ceph_inode_info *ci, int mask, int t);
extern int __ceph_caps_issued_mask_metric(struct ceph_inode_info *ci, int mask,
int t);
extern int __ceph_caps_issued_other(struct ceph_inode_info *ci,
struct ceph_cap *cap);
static inline int ceph_caps_issued(struct ceph_inode_info *ci)
{
int issued;
spin_lock(&ci->i_ceph_lock);
issued = __ceph_caps_issued(ci, NULL);
spin_unlock(&ci->i_ceph_lock);
return issued;
}
static inline int ceph_caps_issued_mask_metric(struct ceph_inode_info *ci,
int mask, int touch)
{
int r;
spin_lock(&ci->i_ceph_lock);
r = __ceph_caps_issued_mask_metric(ci, mask, touch);
spin_unlock(&ci->i_ceph_lock);
return r;
}
static inline int __ceph_caps_dirty(struct ceph_inode_info *ci)
{
return ci->i_dirty_caps | ci->i_flushing_caps;
}
extern struct ceph_cap_flush *ceph_alloc_cap_flush(void);
extern void ceph_free_cap_flush(struct ceph_cap_flush *cf);
extern int __ceph_mark_dirty_caps(struct ceph_inode_info *ci, int mask,
struct ceph_cap_flush **pcf);
extern int __ceph_caps_revoking_other(struct ceph_inode_info *ci,
struct ceph_cap *ocap, int mask);
extern int ceph_caps_revoking(struct ceph_inode_info *ci, int mask);
extern int __ceph_caps_used(struct ceph_inode_info *ci);
static inline bool __ceph_is_file_opened(struct ceph_inode_info *ci)
{
return ci->i_nr_by_mode[0];
}
extern int __ceph_caps_file_wanted(struct ceph_inode_info *ci);
extern int __ceph_caps_wanted(struct ceph_inode_info *ci);
/* what the mds thinks we want */
extern int __ceph_caps_mds_wanted(struct ceph_inode_info *ci, bool check);
extern void ceph_caps_init(struct ceph_mds_client *mdsc);
extern void ceph_caps_finalize(struct ceph_mds_client *mdsc);
extern void ceph_adjust_caps_max_min(struct ceph_mds_client *mdsc,
struct ceph_mount_options *fsopt);
extern int ceph_reserve_caps(struct ceph_mds_client *mdsc,
struct ceph_cap_reservation *ctx, int need);
extern void ceph_unreserve_caps(struct ceph_mds_client *mdsc,
struct ceph_cap_reservation *ctx);
extern void ceph_reservation_status(struct ceph_fs_client *client,
int *total, int *avail, int *used,
int *reserved, int *min);
/*
* we keep buffered readdir results attached to file->private_data
*/
#define CEPH_F_SYNC 1
#define CEPH_F_ATEND 2
struct ceph_file_info {
short fmode; /* initialized on open */
short flags; /* CEPH_F_* */
spinlock_t rw_contexts_lock;
struct list_head rw_contexts;
errseq_t meta_err;
u32 filp_gen;
atomic_t num_locks;
};
struct ceph_dir_file_info {
struct ceph_file_info file_info;
/* readdir: position within the dir */
u32 frag;
struct ceph_mds_request *last_readdir;
/* readdir: position within a frag */
unsigned next_offset; /* offset of next chunk (last_name's + 1) */
char *last_name; /* last entry in previous chunk */
long long dir_release_count;
long long dir_ordered_count;
int readdir_cache_idx;
/* used for -o dirstat read() on directory thing */
char *dir_info;
int dir_info_len;
};
struct ceph_rw_context {
struct list_head list;
struct task_struct *thread;
int caps;
};
#define CEPH_DEFINE_RW_CONTEXT(_name, _caps) \
struct ceph_rw_context _name = { \
.thread = current, \
.caps = _caps, \
}
static inline void ceph_add_rw_context(struct ceph_file_info *cf,
struct ceph_rw_context *ctx)
{
spin_lock(&cf->rw_contexts_lock);
list_add(&ctx->list, &cf->rw_contexts);
spin_unlock(&cf->rw_contexts_lock);
}
static inline void ceph_del_rw_context(struct ceph_file_info *cf,
struct ceph_rw_context *ctx)
{
spin_lock(&cf->rw_contexts_lock);
list_del(&ctx->list);
spin_unlock(&cf->rw_contexts_lock);
}
static inline struct ceph_rw_context*
ceph_find_rw_context(struct ceph_file_info *cf)
{
struct ceph_rw_context *ctx, *found = NULL;
spin_lock(&cf->rw_contexts_lock);
list_for_each_entry(ctx, &cf->rw_contexts, list) {
if (ctx->thread == current) {
found = ctx;
break;
}
}
spin_unlock(&cf->rw_contexts_lock);
return found;
}
struct ceph_readdir_cache_control {
struct page *page;
struct dentry **dentries;
int index;
};
/*
* A "snap realm" describes a subset of the file hierarchy sharing
* the same set of snapshots that apply to it. The realms themselves
* are organized into a hierarchy, such that children inherit (some of)
* the snapshots of their parents.
*
* All inodes within the realm that have capabilities are linked into a
* per-realm list.
*/
struct ceph_snap_realm {
u64 ino;
struct inode *inode;
atomic_t nref;
struct rb_node node;
u64 created, seq;
u64 parent_ino;
u64 parent_since; /* snapid when our current parent became so */
u64 *prior_parent_snaps; /* snaps inherited from any parents we */
u32 num_prior_parent_snaps; /* had prior to parent_since */
u64 *snaps; /* snaps specific to this realm */
u32 num_snaps;
struct ceph_snap_realm *parent;
struct list_head children; /* list of child realms */
struct list_head child_item;
struct list_head empty_item; /* if i have ref==0 */
struct list_head dirty_item; /* if realm needs new context */
/* the current set of snaps for this realm */
struct ceph_snap_context *cached_context;
struct list_head inodes_with_caps;
spinlock_t inodes_with_caps_lock;
};
static inline int default_congestion_kb(void)
{
int congestion_kb;
/*
* Copied from NFS
*
* congestion size, scale with available memory.
*
* 64MB: 8192k
* 128MB: 11585k
* 256MB: 16384k
* 512MB: 23170k
* 1GB: 32768k
* 2GB: 46340k
* 4GB: 65536k
* 8GB: 92681k
* 16GB: 131072k
*
* This allows larger machines to have larger/more transfers.
* Limit the default to 256M
*/
congestion_kb = (16*int_sqrt(totalram_pages())) << (PAGE_SHIFT-10);
if (congestion_kb > 256*1024)
congestion_kb = 256*1024;
return congestion_kb;
}
/* super.c */
extern int ceph_force_reconnect(struct super_block *sb);
/* snap.c */
struct ceph_snap_realm *ceph_lookup_snap_realm(struct ceph_mds_client *mdsc,
u64 ino);
extern void ceph_get_snap_realm(struct ceph_mds_client *mdsc,
struct ceph_snap_realm *realm);
extern void ceph_put_snap_realm(struct ceph_mds_client *mdsc,
struct ceph_snap_realm *realm);
extern int ceph_update_snap_trace(struct ceph_mds_client *m,
void *p, void *e, bool deletion,
struct ceph_snap_realm **realm_ret);
extern void ceph_handle_snap(struct ceph_mds_client *mdsc,
struct ceph_mds_session *session,
struct ceph_msg *msg);
extern void ceph_queue_cap_snap(struct ceph_inode_info *ci);
extern int __ceph_finish_cap_snap(struct ceph_inode_info *ci,
struct ceph_cap_snap *capsnap);
extern void ceph_cleanup_empty_realms(struct ceph_mds_client *mdsc);
extern struct ceph_snapid_map *ceph_get_snapid_map(struct ceph_mds_client *mdsc,
u64 snap);
extern void ceph_put_snapid_map(struct ceph_mds_client* mdsc,
struct ceph_snapid_map *sm);
extern void ceph_trim_snapid_map(struct ceph_mds_client *mdsc);
extern void ceph_cleanup_snapid_map(struct ceph_mds_client *mdsc);
/*
* a cap_snap is "pending" if it is still awaiting an in-progress
* sync write (that may/may not still update size, mtime, etc.).
*/
static inline bool __ceph_have_pending_cap_snap(struct ceph_inode_info *ci)
{
return !list_empty(&ci->i_cap_snaps) &&
list_last_entry(&ci->i_cap_snaps, struct ceph_cap_snap,
ci_item)->writing;
}
/* inode.c */
struct ceph_mds_reply_info_in;
struct ceph_mds_reply_dirfrag;
extern const struct inode_operations ceph_file_iops;
extern struct inode *ceph_alloc_inode(struct super_block *sb);
extern void ceph_evict_inode(struct inode *inode);
extern void ceph_free_inode(struct inode *inode);
extern struct inode *ceph_get_inode(struct super_block *sb,
struct ceph_vino vino);
extern struct inode *ceph_get_snapdir(struct inode *parent);
extern int ceph_fill_file_size(struct inode *inode, int issued,
u32 truncate_seq, u64 truncate_size, u64 size);
extern void ceph_fill_file_time(struct inode *inode, int issued,
u64 time_warp_seq, struct timespec64 *ctime,
struct timespec64 *mtime,
struct timespec64 *atime);
extern int ceph_fill_inode(struct inode *inode, struct page *locked_page,
struct ceph_mds_reply_info_in *iinfo,
struct ceph_mds_reply_dirfrag *dirinfo,
struct ceph_mds_session *session, int cap_fmode,
struct ceph_cap_reservation *caps_reservation);
extern int ceph_fill_trace(struct super_block *sb,
struct ceph_mds_request *req);
extern int ceph_readdir_prepopulate(struct ceph_mds_request *req,
struct ceph_mds_session *session);
extern int ceph_inode_holds_cap(struct inode *inode, int mask);
extern bool ceph_inode_set_size(struct inode *inode, loff_t size);
extern void __ceph_do_pending_vmtruncate(struct inode *inode);
extern void ceph_async_iput(struct inode *inode);
void ceph_queue_inode_work(struct inode *inode, int work_bit);
static inline void ceph_queue_vmtruncate(struct inode *inode)
{
ceph_queue_inode_work(inode, CEPH_I_WORK_VMTRUNCATE);
}
static inline void ceph_queue_invalidate(struct inode *inode)
{
ceph_queue_inode_work(inode, CEPH_I_WORK_INVALIDATE_PAGES);
}
static inline void ceph_queue_writeback(struct inode *inode)
{
ceph_queue_inode_work(inode, CEPH_I_WORK_WRITEBACK);
}
static inline void ceph_queue_check_caps(struct inode *inode)
{
ceph_queue_inode_work(inode, CEPH_I_WORK_CHECK_CAPS);
}
static inline void ceph_queue_flush_snaps(struct inode *inode)
{
ceph_queue_inode_work(inode, CEPH_I_WORK_FLUSH_SNAPS);
}
extern int __ceph_do_getattr(struct inode *inode, struct page *locked_page,
int mask, bool force);
static inline int ceph_do_getattr(struct inode *inode, int mask, bool force)
{
return __ceph_do_getattr(inode, NULL, mask, force);
}
extern int ceph_permission(struct inode *inode, int mask);
extern int __ceph_setattr(struct inode *inode, struct iattr *attr);
extern int ceph_setattr(struct dentry *dentry, struct iattr *attr);
extern int ceph_getattr(const struct path *path, struct kstat *stat,
u32 request_mask, unsigned int flags);
/* xattr.c */
int __ceph_setxattr(struct inode *, const char *, const void *, size_t, int);
ssize_t __ceph_getxattr(struct inode *, const char *, void *, size_t);
extern ssize_t ceph_listxattr(struct dentry *, char *, size_t);
extern struct ceph_buffer *__ceph_build_xattrs_blob(struct ceph_inode_info *ci);
extern void __ceph_destroy_xattrs(struct ceph_inode_info *ci);
extern const struct xattr_handler *ceph_xattr_handlers[];
struct ceph_acl_sec_ctx {
#ifdef CONFIG_CEPH_FS_POSIX_ACL
void *default_acl;
void *acl;
#endif
#ifdef CONFIG_CEPH_FS_SECURITY_LABEL
void *sec_ctx;
u32 sec_ctxlen;
#endif
struct ceph_pagelist *pagelist;
};
#ifdef CONFIG_SECURITY
extern bool ceph_security_xattr_deadlock(struct inode *in);
extern bool ceph_security_xattr_wanted(struct inode *in);
#else
static inline bool ceph_security_xattr_deadlock(struct inode *in)
{
return false;
}
static inline bool ceph_security_xattr_wanted(struct inode *in)
{
return false;
}
#endif
#ifdef CONFIG_CEPH_FS_SECURITY_LABEL
extern int ceph_security_init_secctx(struct dentry *dentry, umode_t mode,
struct ceph_acl_sec_ctx *ctx);
static inline void ceph_security_invalidate_secctx(struct inode *inode)
{
security_inode_invalidate_secctx(inode);
}
#else
static inline int ceph_security_init_secctx(struct dentry *dentry, umode_t mode,
struct ceph_acl_sec_ctx *ctx)
{
return 0;
}
static inline void ceph_security_invalidate_secctx(struct inode *inode)
{
}
#endif
void ceph_release_acl_sec_ctx(struct ceph_acl_sec_ctx *as_ctx);
/* acl.c */
#ifdef CONFIG_CEPH_FS_POSIX_ACL
struct posix_acl *ceph_get_acl(struct inode *, int);
int ceph_set_acl(struct inode *inode, struct posix_acl *acl, int type);
int ceph_pre_init_acls(struct inode *dir, umode_t *mode,
struct ceph_acl_sec_ctx *as_ctx);
void ceph_init_inode_acls(struct inode *inode,
struct ceph_acl_sec_ctx *as_ctx);
static inline void ceph_forget_all_cached_acls(struct inode *inode)
{
forget_all_cached_acls(inode);
}
#else
#define ceph_get_acl NULL
#define ceph_set_acl NULL
static inline int ceph_pre_init_acls(struct inode *dir, umode_t *mode,
struct ceph_acl_sec_ctx *as_ctx)
{
return 0;
}
static inline void ceph_init_inode_acls(struct inode *inode,
struct ceph_acl_sec_ctx *as_ctx)
{
}
static inline int ceph_acl_chmod(struct dentry *dentry, struct inode *inode)
{
return 0;
}
static inline void ceph_forget_all_cached_acls(struct inode *inode)
{
}
#endif
/* caps.c */
extern const char *ceph_cap_string(int c);
extern void ceph_handle_caps(struct ceph_mds_session *session,
struct ceph_msg *msg);
extern struct ceph_cap *ceph_get_cap(struct ceph_mds_client *mdsc,
struct ceph_cap_reservation *ctx);
extern void ceph_add_cap(struct inode *inode,
struct ceph_mds_session *session, u64 cap_id,
unsigned issued, unsigned wanted,
unsigned cap, unsigned seq, u64 realmino, int flags,
struct ceph_cap **new_cap);
extern void __ceph_remove_cap(struct ceph_cap *cap, bool queue_release);
extern void __ceph_remove_caps(struct ceph_inode_info *ci);
extern void ceph_put_cap(struct ceph_mds_client *mdsc,
struct ceph_cap *cap);
extern int ceph_is_any_caps(struct inode *inode);
extern int ceph_write_inode(struct inode *inode, struct writeback_control *wbc);
extern int ceph_fsync(struct file *file, loff_t start, loff_t end,
int datasync);
extern void ceph_early_kick_flushing_caps(struct ceph_mds_client *mdsc,
struct ceph_mds_session *session);
extern void ceph_kick_flushing_caps(struct ceph_mds_client *mdsc,
struct ceph_mds_session *session);
void ceph_kick_flushing_inode_caps(struct ceph_mds_session *session,
struct ceph_inode_info *ci);
extern struct ceph_cap *ceph_get_cap_for_mds(struct ceph_inode_info *ci,
int mds);
extern void ceph_take_cap_refs(struct ceph_inode_info *ci, int caps,
bool snap_rwsem_locked);
extern void ceph_get_cap_refs(struct ceph_inode_info *ci, int caps);
extern void ceph_put_cap_refs(struct ceph_inode_info *ci, int had);
extern void ceph_put_cap_refs_async(struct ceph_inode_info *ci, int had);
extern void ceph_put_cap_refs_no_check_caps(struct ceph_inode_info *ci,
int had);
extern void ceph_put_wrbuffer_cap_refs(struct ceph_inode_info *ci, int nr,
struct ceph_snap_context *snapc);
extern void ceph_flush_snaps(struct ceph_inode_info *ci,
struct ceph_mds_session **psession);
extern bool __ceph_should_report_size(struct ceph_inode_info *ci);
extern void ceph_check_caps(struct ceph_inode_info *ci, int flags,
struct ceph_mds_session *session);
extern void ceph_check_delayed_caps(struct ceph_mds_client *mdsc);
extern void ceph_flush_dirty_caps(struct ceph_mds_client *mdsc);
extern int ceph_drop_caps_for_unlink(struct inode *inode);
extern int ceph_encode_inode_release(void **p, struct inode *inode,
int mds, int drop, int unless, int force);
extern int ceph_encode_dentry_release(void **p, struct dentry *dn,
struct inode *dir,
int mds, int drop, int unless);
extern int ceph_get_caps(struct file *filp, int need, int want,
loff_t endoff, int *got, struct page **pinned_page);
extern int ceph_try_get_caps(struct inode *inode,
int need, int want, bool nonblock, int *got);
/* for counting open files by mode */
extern void ceph_get_fmode(struct ceph_inode_info *ci, int mode, int count);
extern void ceph_put_fmode(struct ceph_inode_info *ci, int mode, int count);
extern void __ceph_touch_fmode(struct ceph_inode_info *ci,
struct ceph_mds_client *mdsc, int fmode);
/* addr.c */
extern const struct address_space_operations ceph_aops;
extern int ceph_mmap(struct file *file, struct vm_area_struct *vma);
extern int ceph_uninline_data(struct file *filp, struct page *locked_page);
extern int ceph_pool_perm_check(struct inode *inode, int need);
extern void ceph_pool_perm_destroy(struct ceph_mds_client* mdsc);
/* file.c */
extern const struct file_operations ceph_file_fops;
extern int ceph_renew_caps(struct inode *inode, int fmode);
extern int ceph_open(struct inode *inode, struct file *file);
extern int ceph_atomic_open(struct inode *dir, struct dentry *dentry,
struct file *file, unsigned flags, umode_t mode);
extern int ceph_release(struct inode *inode, struct file *filp);
extern void ceph_fill_inline_data(struct inode *inode, struct page *locked_page,
char *data, size_t len);
/* dir.c */
extern const struct file_operations ceph_dir_fops;
extern const struct file_operations ceph_snapdir_fops;
extern const struct inode_operations ceph_dir_iops;
extern const struct inode_operations ceph_snapdir_iops;
extern const struct dentry_operations ceph_dentry_ops;
extern loff_t ceph_make_fpos(unsigned high, unsigned off, bool hash_order);
extern int ceph_handle_notrace_create(struct inode *dir, struct dentry *dentry);
extern int ceph_handle_snapdir(struct ceph_mds_request *req,
struct dentry *dentry, int err);
extern struct dentry *ceph_finish_lookup(struct ceph_mds_request *req,
struct dentry *dentry, int err);
extern void __ceph_dentry_lease_touch(struct ceph_dentry_info *di);
extern void __ceph_dentry_dir_lease_touch(struct ceph_dentry_info *di);
extern void ceph_invalidate_dentry_lease(struct dentry *dentry);
extern int ceph_trim_dentries(struct ceph_mds_client *mdsc);
extern unsigned ceph_dentry_hash(struct inode *dir, struct dentry *dn);
extern void ceph_readdir_cache_release(struct ceph_readdir_cache_control *ctl);
/* ioctl.c */
extern long ceph_ioctl(struct file *file, unsigned int cmd, unsigned long arg);
/* export.c */
extern const struct export_operations ceph_export_ops;
struct inode *ceph_lookup_inode(struct super_block *sb, u64 ino);
/* locks.c */
extern __init void ceph_flock_init(void);
extern int ceph_lock(struct file *file, int cmd, struct file_lock *fl);
extern int ceph_flock(struct file *file, int cmd, struct file_lock *fl);
extern void ceph_count_locks(struct inode *inode, int *p_num, int *f_num);
extern int ceph_encode_locks_to_buffer(struct inode *inode,
struct ceph_filelock *flocks,
int num_fcntl_locks,
int num_flock_locks);
extern int ceph_locks_to_pagelist(struct ceph_filelock *flocks,
struct ceph_pagelist *pagelist,
int num_fcntl_locks, int num_flock_locks);
/* debugfs.c */
extern void ceph_fs_debugfs_init(struct ceph_fs_client *client);
extern void ceph_fs_debugfs_cleanup(struct ceph_fs_client *client);
/* quota.c */
static inline bool __ceph_has_any_quota(struct ceph_inode_info *ci)
{
return ci->i_max_files || ci->i_max_bytes;
}
extern void ceph_adjust_quota_realms_count(struct inode *inode, bool inc);
static inline void __ceph_update_quota(struct ceph_inode_info *ci,
u64 max_bytes, u64 max_files)
{
bool had_quota, has_quota;
had_quota = __ceph_has_any_quota(ci);
ci->i_max_bytes = max_bytes;
ci->i_max_files = max_files;
has_quota = __ceph_has_any_quota(ci);
if (had_quota != has_quota)
ceph_adjust_quota_realms_count(&ci->vfs_inode, has_quota);
}
extern void ceph_handle_quota(struct ceph_mds_client *mdsc,
struct ceph_mds_session *session,
struct ceph_msg *msg);
extern bool ceph_quota_is_max_files_exceeded(struct inode *inode);
extern bool ceph_quota_is_same_realm(struct inode *old, struct inode *new);
extern bool ceph_quota_is_max_bytes_exceeded(struct inode *inode,
loff_t newlen);
extern bool ceph_quota_is_max_bytes_approaching(struct inode *inode,
loff_t newlen);
extern bool ceph_quota_update_statfs(struct ceph_fs_client *fsc,
struct kstatfs *buf);
extern void ceph_cleanup_quotarealms_inodes(struct ceph_mds_client *mdsc);
#endif /* _FS_CEPH_SUPER_H */
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