This file is indexed.

/usr/src/openafs-1.6.15/include/afs/vnode.h is in openafs-modules-dkms 1.6.15-1ubuntu1.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
 37
 38
 39
 40
 41
 42
 43
 44
 45
 46
 47
 48
 49
 50
 51
 52
 53
 54
 55
 56
 57
 58
 59
 60
 61
 62
 63
 64
 65
 66
 67
 68
 69
 70
 71
 72
 73
 74
 75
 76
 77
 78
 79
 80
 81
 82
 83
 84
 85
 86
 87
 88
 89
 90
 91
 92
 93
 94
 95
 96
 97
 98
 99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
/*
 * Copyright 2000, International Business Machines Corporation and others.
 * All Rights Reserved.
 *
 * This software has been released under the terms of the IBM Public
 * License.  For details, see the LICENSE file in the top-level source
 * directory or online at http://www.openafs.org/dl/license10.html
 *
 * Portions Copyright (c) 2007-2008 Sine Nomine Associates
 */

/*
	System:		VICE-TWO
	Module:		vnode.h
	Institution:	The Information Technology Center, Carnegie-Mellon University

 */

#ifndef _AFS_VOL_VNODE_H
#define _AFS_VOL_VNODE_H 1

#define Date afs_uint32

struct Volume;			/* Potentially forward definition. */

typedef struct ViceLock {
    int lockCount;
    int lockTime;
} ViceLock;

#define ViceLockCheckLocked(vptr) ((vptr)->lockTime == 0)
#define ViceLockClear(vptr) ((vptr)->lockCount = (vptr)->lockTime = 0)

#define ROOTVNODE 1

/*typedef enum {vNull=0, vFile=1, vDirectory=2, vSymlink=3} VnodeType;*/
typedef unsigned int VnodeType;
#define vNull 0
#define vFile 1
#define vDirectory 2
#define vSymlink 3

/*typedef enum {vLarge=0,vSmall=1} VnodeClass;*/
#define vLarge	0
#define vSmall	1
typedef int VnodeClass;
#define VNODECLASSWIDTH 1
#define VNODECLASSMASK	((1<<VNODECLASSWIDTH)-1)
#define nVNODECLASSES	(VNODECLASSMASK+1)

struct VnodeClassInfo {
    struct Vnode *lruHead;	/* Head of list of vnodes of this class */
    int diskSize;		/* size of vnode disk object, power of 2 */
    int logSize;		/* log 2 diskSize */
    int residentSize;		/* resident size of vnode */
    int cacheSize;		/* Vnode cache size */
    bit32 magic;		/* Magic number for this type of vnode,
				 * for as long as we're using vnode magic
				 * numbers */
    int allocs;			/* Total number of successful allocation
				 * requests; this is the same as the number
				 * of sanity checks on the vnode index */
    int gets, reads;		/* Number of VGetVnodes and corresponding
				 * reads */
    int writes;			/* Number of vnode writes */
};

extern struct VnodeClassInfo VnodeClassInfo[nVNODECLASSES];

#define vnodeTypeToClass(type)  ((type) == vDirectory? vLarge: vSmall)
#define vnodeIdToClass(vnodeId) ((vnodeId-1)&VNODECLASSMASK)
#define vnodeIdToBitNumber(v) (((v)-1)>>VNODECLASSWIDTH)
/* The following calculation allows for a header record at the beginning
   of the index.  The header record is the same size as a vnode */
#define vnodeIndexOffset(vcp,vnodeNumber) \
    ((vnodeIdToBitNumber(vnodeNumber)+1)<<(vcp)->logSize)
#define bitNumberToVnodeNumber(b,class) ((VnodeId)(((b)<<VNODECLASSWIDTH)+(class)+1))
#define vnodeIsDirectory(vnodeNumber) (vnodeIdToClass(vnodeNumber) == vLarge)

typedef struct VnodeDiskObject {
    unsigned int type:3;	/* Vnode is file, directory, symbolic link
				 * or not allocated */
    unsigned int cloned:1;	/* This vnode was cloned--therefore the inode
				 * is copy-on-write; only set for directories */
    unsigned int modeBits:12;	/* Unix mode bits */
    signed int linkCount:16;	/* Number of directory references to vnode
				 * (from single directory only!) */
    bit32 length;		/* Number of bytes in this file */
    Unique uniquifier;		/* Uniquifier for the vnode; assigned
				 * from the volume uniquifier (actually
				 * from nextVnodeUnique in the Volume
				 * structure) */
    FileVersion dataVersion;	/* version number of the data */
    afs_int32 vn_ino_lo;	/* inode number of the data attached to
				 * this vnode - entire ino for standard */
    Date unixModifyTime;	/* set by user */
    UserId author;		/* Userid of the last user storing the file */
    UserId owner;		/* Userid of the user who created the file */
    VnodeId parent;		/* Parent directory vnode */
    bit32 vnodeMagic;		/* Magic number--mainly for file server
				 * paranoia checks */
#   define	  SMALLVNODEMAGIC	0xda8c041F
#   define	  LARGEVNODEMAGIC	0xad8765fe
    /* Vnode magic can be removed, someday, if we run need the room.  Simply
     * have to be sure that the thing we replace can be VNODEMAGIC, rather
     * than 0 (in an old file system).  Or go through and zero the fields,
     * when we notice a version change (the index version number) */
    ViceLock lock;		/* Advisory lock */
    Date serverModifyTime;	/* Used only by the server; for incremental
				 * backup purposes */
    afs_int32 group;		/* unix group */
    afs_int32 vn_ino_hi;	/* high part of 64 bit inode. */
    bit32 vn_length_hi;         /* high part of 64 bit length */
    /* Missing:
     * archiving/migration
     * encryption key
     */
} VnodeDiskObject;

#define SIZEOF_SMALLDISKVNODE	64
#define CHECKSIZE_SMALLVNODE\
	(sizeof(VnodeDiskObject) == SIZEOF_SMALLDISKVNODE)
#define SIZEOF_LARGEDISKVNODE	256



#ifdef AFS_DEMAND_ATTACH_FS
/**
 * demand attach vnode state enumeration.
 *
 * @note values must be contiguous for VnIsValidState() to work
 */
typedef enum {
    VN_STATE_INVALID            = 0,    /**< vnode does not contain valid cache data */
    VN_STATE_RELEASING          = 1,    /**< vnode is busy releasing its ihandle ref */
    VN_STATE_CLOSING            = 2,    /**< vnode is busy closing its ihandle ref */
    VN_STATE_ALLOC              = 3,    /**< vnode is busy allocating disk entry */
    VN_STATE_ONLINE             = 4,    /**< vnode is ready for use */
    VN_STATE_LOAD               = 5,    /**< vnode is busy being loaded from disk */
    VN_STATE_EXCLUSIVE          = 6,    /**< something external to the vnode package
					 *   is operating exclusively on this vnode */
    VN_STATE_STORE              = 7,    /**< vnode is busy being stored to disk */
    VN_STATE_READ               = 8,    /**< a non-zero number of threads are executing
					 *   code external to the vnode package which
					 *   requires shared access */
    VN_STATE_ERROR              = 10,   /**< vnode hard error state */
    VN_STATE_COUNT
} VnState;
#endif /* AFS_DEMAND_ATTACH_FS */

/**
 * DAFS vnode state flags.
 */
enum VnFlags {
    VN_ON_HASH            = 0x1,        /**< vnode is on hash table */
    VN_ON_LRU             = 0x2,        /**< vnode is on lru list */
    VN_ON_VVN             = 0x4,        /**< vnode is on volume vnode list */
    VN_FLAGS_END
};


typedef struct Vnode {
    struct rx_queue vid_hash;   /* for vnode by volume id hash */
    struct Vnode *hashNext;	/* Next vnode on hash conflict chain */
    struct Vnode *lruNext;	/* Less recently used vnode than this one */
    struct Vnode *lruPrev;	/* More recently used vnode than this one */
    /* The lruNext, lruPrev fields are not
     * meaningful if the vnode is in use */
    bit16 hashIndex;		/* Hash table index */
#ifdef	AFS_AIX_ENV
    unsigned changed_newTime:1;	/* 1 if vnode changed, write time */
    unsigned changed_oldTime:1;	/* 1 changed, don't update time. */
    unsigned delete:1;		/* 1 if the vnode should be deleted; in
				 * this case, changed must also be 1 */
#else
    byte changed_newTime:1;	/* 1 if vnode changed, write time */
    byte changed_oldTime:1;	/* 1 changed, don't update time. */
    byte delete:1;		/* 1 if the vnode should be deleted; in
				 * this case, changed must also be 1 */
#endif
    VnodeId vnodeNumber;
    struct Volume
     *volumePtr;		/* Pointer to the volume containing this file */
    bit32 nUsers;		/* Number of lwp's who have done a VGetVnode */
    bit32 cacheCheck;		/* Must equal the value in the volume Header
				 * for the cache entry to be valid */
    bit32 vn_state_flags;       /**< vnode state flags */
#ifdef AFS_DEMAND_ATTACH_FS
    bit32 nReaders;             /**< number of read locks held */
    VnState vn_state;           /**< vnode state */
    pthread_cond_t vn_state_cv; /**< state change notification cv */
#else /* !AFS_DEMAND_ATTACH_FS */
    struct Lock lock;		/* Internal lock */
#endif /* !AFS_DEMAND_ATTACH_FS */
#ifdef AFS_PTHREAD_ENV
    pthread_t writer;		/* thread holding write lock */
#else				/* AFS_PTHREAD_ENV */
    PROCESS writer;		/* Process id having write lock */
#endif				/* AFS_PTHREAD_ENV */
    struct VnodeClassInfo * vcp; /**< our vnode class */
    IHandle_t *handle;
    VnodeDiskObject disk;	/* The actual disk data for the vnode */
} Vnode;

#define SIZEOF_LARGEVNODE \
	(sizeof(struct Vnode) - sizeof(VnodeDiskObject) + SIZEOF_LARGEDISKVNODE)
#define SIZEOF_SMALLVNODE	(sizeof (struct Vnode))


/*
 * struct Vnode accessor abstraction
 */
#define Vn_refcount(vnp)      ((vnp)->nUsers)
#define Vn_state(vnp)         ((vnp)->vn_state)
#define Vn_stateFlags(vnp)    ((vnp)->vn_state_flags)
#define Vn_stateCV(vnp)       ((vnp)->vn_state_cv)
#define Vn_volume(vnp)        ((vnp)->volumePtr)
#define Vn_cacheCheck(vnp)    ((vnp)->cacheCheck)
#define Vn_class(vnp)         ((vnp)->vcp)
#define Vn_readers(vnp)       ((vnp)->nReaders)
#define Vn_id(vnp)            ((vnp)->vnodeNumber)


#define VN_GET_LEN(N, V) FillInt64(N, (V)->disk.vn_length_hi, (V)->disk.length)
#define VNDISK_GET_LEN(N, V) FillInt64(N, (V)->vn_length_hi, (V)->length)
#define VN_SET_LEN(V, N) SplitInt64(N, (V)->disk.vn_length_hi, (V)->disk.length)
#define VNDISK_SET_LEN(V, N) SplitInt64(N, (V)->vn_length_hi, (V)->length)

#ifdef AFS_64BIT_IOPS_ENV
#define VN_GET_INO(V) ((Inode)((V)->disk.vn_ino_lo | \
			       ((V)->disk.vn_ino_hi ? \
				(((Inode)(V)->disk.vn_ino_hi)<<32) : 0)))

#define VN_SET_INO(V, I) ((V)->disk.vn_ino_lo = (int)((I)&0xffffffff), \
			   ((V)->disk.vn_ino_hi = (I) ? \
			    (int)(((I)>>32)&0xffffffff) : 0))

#define VNDISK_GET_INO(V) ((Inode)((V)->vn_ino_lo | \
				   ((V)->vn_ino_hi ? \
				    (((Inode)(V)->vn_ino_hi)<<32) : 0)))

#define VNDISK_SET_INO(V, I) ((V)->vn_ino_lo = (int)(I&0xffffffff), \
			      ((V)->vn_ino_hi = (I) ? \
			       (int)(((I)>>32)&0xffffffff) : 0))
#else
#define VN_GET_INO(V) ((V)->disk.vn_ino_lo)
#define VN_SET_INO(V, I) ((V)->disk.vn_ino_lo = (I))
#define VNDISK_GET_INO(V) ((V)->vn_ino_lo)
#define VNDISK_SET_INO(V, I) ((V)->vn_ino_lo = (I))
#endif

#define VVnodeDiskACL(v)     /* Only call this with large (dir) vnode!! */ \
	((AL_AccessList *) (((byte *)(v))+SIZEOF_SMALLDISKVNODE))
#define  VVnodeACL(vnp) (VVnodeDiskACL(&(vnp)->disk))
/* VAclSize is defined this way to allow information in the vnode header
   to grow, in a POSSIBLY upward compatible manner.  SIZEOF_SMALLDISKVNODE
   is the maximum size of the basic vnode.  The vnode header of either type
   can actually grow to this size without conflicting with the ACL on larger
   vnodes */
#define VAclSize(vnp)		(SIZEOF_LARGEDISKVNODE - SIZEOF_SMALLDISKVNODE)
#define VAclDiskSize(v)		(SIZEOF_LARGEDISKVNODE - SIZEOF_SMALLDISKVNODE)
/*extern int VolumeHashOffset(); */
extern int VolumeHashOffset_r(void);
extern int VInitVnodes(VnodeClass class, int nVnodes);
/*extern VInitVnodes_r();*/
extern Vnode *VGetVnode(Error * ec, struct Volume *vp, VnodeId vnodeNumber,
			int locktype);
extern Vnode *VGetVnode_r(Error * ec, struct Volume *vp, VnodeId vnodeNumber,
			  int locktype);
extern void VPutVnode(Error * ec, Vnode * vnp);
extern void VPutVnode_r(Error * ec, Vnode * vnp);
extern int VVnodeWriteToRead(Error * ec, Vnode * vnp);
extern int VVnodeWriteToRead_r(Error * ec, Vnode * vnp);
extern Vnode *VAllocVnode(Error * ec, struct Volume *vp, VnodeType type);
extern Vnode *VAllocVnode_r(Error * ec, struct Volume *vp, VnodeType type);
/*extern VFreeVnode();*/
extern Vnode *VGetFreeVnode_r(struct VnodeClassInfo *vcp, struct Volume *vp,
                              VnodeId vnodeNumber);
extern Vnode *VLookupVnode(struct Volume * vp, VnodeId vnodeId);

extern void AddToVVnList(struct Volume * vp, Vnode * vnp);
extern void DeleteFromVVnList(Vnode * vnp);
extern void AddToVnLRU(struct VnodeClassInfo * vcp, Vnode * vnp);
extern void DeleteFromVnLRU(struct VnodeClassInfo * vcp, Vnode * vnp);
extern void AddToVnHash(Vnode * vnp);
extern void DeleteFromVnHash(Vnode * vnp);

#endif /* _AFS_VOL_VNODE_H */