typedef struct Arch Arch;
typedef struct BList BList;
typedef struct Block Block;
typedef struct Cache Cache;
typedef struct Disk Disk;
typedef struct Entry Entry;
typedef struct Fsck Fsck;
typedef struct Header Header;
typedef struct Label Label;
typedef struct Periodic Periodic;
typedef struct Snap Snap;
typedef struct Source Source;
typedef struct Super Super;
typedef struct WalkPtr WalkPtr;
#pragma incomplete Arch
#pragma incomplete BList
#pragma incomplete Cache
#pragma incomplete Disk
#pragma incomplete Periodic
#pragma incomplete Snap
/* tunable parameters - probably should not be constants */
enum {
/*
* estimate of bytes per dir entries - determines number
* of index entries in the block
*/
BytesPerEntry = 100,
/* don't allocate in block if more than this percentage full */
FullPercentage = 80,
FlushSize = 200, /* number of blocks to flush */
DirtyPercentage = 50, /* maximum percentage of dirty blocks */
};
enum {
Nowaitlock,
Waitlock,
NilBlock = (~0UL),
MaxBlock = (1UL<<31),
};
enum {
HeaderMagic = 0x3776ae89,
HeaderVersion = 1,
HeaderOffset = 128*1024,
HeaderSize = 512,
SuperMagic = 0x2340a3b1,
SuperSize = 512,
SuperVersion = 1,
LabelSize = 14,
};
/* well known tags */
enum {
BadTag = 0, /* this tag should not be used */
RootTag = 1, /* root of fs */
EnumTag, /* root of a dir listing */
UserTag = 32, /* all other tags should be >= UserTag */
};
struct Super {
u16int version;
u32int epochLow;
u32int epochHigh;
u64int qid; /* next qid */
u32int active; /* root of active file system */
u32int next; /* root of next snapshot to archive */
u32int current; /* root of snapshot currently archiving */
uchar last[VtScoreSize]; /* last snapshot successfully archived */
char name[128]; /* label */
};
struct Fs {
Arch *arch; /* immutable */
Cache *cache; /* immutable */
int mode; /* immutable */
int noatimeupd; /* immutable */
int blockSize; /* immutable */
VtSession *z; /* immutable */
Snap *snap; /* immutable */
/* immutable; copy here & Fsys to ease error reporting */
char *name;
Periodic *metaFlush; /* periodically flushes metadata cached in files */
/*
* epoch lock.
* Most operations on the fs require a read lock of elk, ensuring that
* the current high and low epochs do not change under foot.
* This lock is mostly acquired via a call to fileLock or fileRlock.
* Deletion and creation of snapshots occurs under a write lock of elk,
* ensuring no file operations are occurring concurrently.
*/
VtLock *elk; /* epoch lock */
u32int ehi; /* epoch high */
u32int elo; /* epoch low */
int halted; /* epoch lock is held to halt (console initiated) */
Source *source; /* immutable: root of sources */
File *file; /* immutable: root of files */
};
/*
* variant on VtEntry
* there are extra fields when stored locally
*/
struct Entry {
u32int gen; /* generation number */
ushort psize; /* pointer block size */
ushort dsize; /* data block size */
uchar depth; /* unpacked from flags */
uchar flags;
uvlong size;
uchar score[VtScoreSize];
u32int tag; /* tag for local blocks: zero if stored on Venti */
u32int snap; /* non-zero -> entering snapshot of given epoch */
uchar archive; /* archive this snapshot: only valid for snap != 0 */
};
/*
* This is called a `stream' in the fossil paper. There used to be Sinks too.
* We believe that Sources and Files are one-to-one.
*/
struct Source {
Fs *fs; /* immutable */
int mode; /* immutable */
int issnapshot; /* immutable */
u32int gen; /* immutable */
int dsize; /* immutable */
int dir; /* immutable */
Source *parent; /* immutable */
File *file; /* immutable; point back */
VtLock *lk;
int ref;
/*
* epoch for the source
* for ReadWrite sources, epoch is used to lazily notice
* sources that must be split from the snapshots.
* for ReadOnly sources, the epoch represents the minimum epoch
* along the chain from the root, and is used to lazily notice
* sources that have become invalid because they belong to an old
* snapshot.
*/
u32int epoch;
Block *b; /* block containing this source */
uchar score[VtScoreSize]; /* score of block containing this source */
u32int scoreEpoch; /* epoch of block containing this source */
int epb; /* immutable: entries per block in parent */
u32int tag; /* immutable: tag of parent */
u32int offset; /* immutable: entry offset in parent */
};
struct Header {
ushort version;
ushort blockSize;
ulong super; /* super blocks */
ulong label; /* start of labels */
ulong data; /* end of labels - start of data blocks */
ulong end; /* end of data blocks */
};
/*
* contains a one block buffer
* to avoid problems of the block changing underfoot
* and to enable an interface that supports unget.
*/
struct DirEntryEnum {
File *file;
u32int boff; /* block offset */
int i, n;
DirEntry *buf;
};
/* Block states */
enum {
BsFree = 0, /* available for allocation */
BsBad = 0xFF, /* something is wrong with this block */
/* bit fields */
BsAlloc = 1<<0, /* block is in use */
BsCopied = 1<<1,/* block has been copied (usually in preparation for unlink) */
BsVenti = 1<<2, /* block has been stored on Venti */
BsClosed = 1<<3,/* block has been unlinked on disk from active file system */
BsMask = BsAlloc|BsCopied|BsVenti|BsClosed,
};
/*
* block types
* more regular than Venti block types
* bit 3 -> block or data block
* bits 2-0 -> level of block
*/
enum {
BtData,
BtDir = 1<<3,
BtLevelMask = 7,
BtMax = 1<<4,
};
/* io states */
enum {
BioEmpty, /* label & data are not valid */
BioLabel, /* label is good */
BioClean, /* data is on the disk */
BioDirty, /* data is not yet on the disk */
BioReading, /* in process of reading data */
BioWriting, /* in process of writing data */
BioReadError, /* error reading: assume disk always handles write errors */
BioVentiError, /* error reading from venti (probably disconnected) */
BioMax
};
struct Label {
uchar type;
uchar state;
u32int tag;
u32int epoch;
u32int epochClose;
};
struct Block {
Cache *c;
int ref;
int nlock;
uintptr pc; /* pc that fetched this block from the cache */
VtLock *lk;
int part;
u32int addr;
uchar score[VtScoreSize]; /* score */
Label l;
uchar *dmap;
uchar *data;
/* the following is private; used by cache */
Block *next; /* doubly linked hash chains */
Block **prev;
u32int heap; /* index in heap table */
u32int used; /* last reference times */
u32int vers; /* version of dirty flag */
BList *uhead; /* blocks to unlink when this block is written */
BList *utail;
/* block ordering for cache -> disk */
BList *prior; /* list of blocks before this one */
Block *ionext;
int iostate;
VtRendez *ioready;
};
/* tree walker, for gc and archiver */
struct WalkPtr
{
uchar *data;
int isEntry;
int n;
int m;
Entry e;
uchar type;
u32int tag;
};
enum
{
DoClose = 1<<0,
DoClre = 1<<1,
DoClri = 1<<2,
DoClrp = 1<<3,
};
struct Fsck
{
/* filled in by caller */
int printblocks;
int useventi;
int flags;
int printdirs;
int printfiles;
int walksnapshots;
int walkfs;
Fs *fs;
int (*print)(char*, ...);
void (*clre)(Fsck*, Block*, int);
void (*clrp)(Fsck*, Block*, int);
void (*close)(Fsck*, Block*, u32int);
void (*clri)(Fsck*, char*, MetaBlock*, int, Block*);
/* used internally */
Cache *cache;
uchar *amap; /* all blocks seen so far */
uchar *emap; /* all blocks seen in this epoch */
uchar *xmap; /* all blocks in this epoch with parents in this epoch */
uchar *errmap; /* blocks with errors */
uchar *smap; /* walked sources */
int nblocks;
int bsize;
int walkdepth;
u32int hint; /* where the next root probably is */
int nseen;
int quantum;
int nclre;
int nclrp;
int nclose;
int nclri;
};
/* disk partitions; keep in sync with partname[] in disk.c */
enum {
PartError,
PartSuper,
PartLabel,
PartData,
PartVenti, /* fake partition */
};
extern vtType[BtMax];
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