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clarify some FS comments
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Robert Morris committed Oct 11, 2011
1 parent d73dd09 commit a5fbfe4
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Showing 6 changed files with 69 additions and 46 deletions.
16 changes: 8 additions & 8 deletions bio.c
Original file line number Diff line number Diff line change
Expand Up @@ -7,7 +7,7 @@
//
// Interface:
// * To get a buffer for a particular disk block, call bread.
// * After changing buffer data, call bwrite to flush it to disk.
// * After changing buffer data, call bwrite to write it to disk.
// * When done with the buffer, call brelse.
// * Do not use the buffer after calling brelse.
// * Only one process at a time can use a buffer,
Expand All @@ -16,8 +16,7 @@
// The implementation uses three state flags internally:
// * B_BUSY: the block has been returned from bread
// and has not been passed back to brelse.
// * B_VALID: the buffer data has been initialized
// with the associated disk block contents.
// * B_VALID: the buffer data has been read from the disk.
// * B_DIRTY: the buffer data has been modified
// and needs to be written to disk.

Expand Down Expand Up @@ -58,7 +57,7 @@ binit(void)

// Look through buffer cache for sector on device dev.
// If not found, allocate fresh block.
// In either case, return locked buffer.
// In either case, return B_BUSY buffer.
static struct buf*
bget(uint dev, uint sector)
{
Expand All @@ -67,7 +66,7 @@ bget(uint dev, uint sector)
acquire(&bcache.lock);

loop:
// Try for cached block.
// Is the sector already cached?
for(b = bcache.head.next; b != &bcache.head; b = b->next){
if(b->dev == dev && b->sector == sector){
if(!(b->flags & B_BUSY)){
Expand All @@ -80,7 +79,7 @@ bget(uint dev, uint sector)
}
}

// Allocate fresh block.
// Not cached; recycle some existing buffer.
for(b = bcache.head.prev; b != &bcache.head; b = b->prev){
if((b->flags & B_BUSY) == 0){
b->dev = dev;
Expand All @@ -105,7 +104,7 @@ bread(uint dev, uint sector)
return b;
}

// Write b's contents to disk. Must be locked.
// Write b's contents to disk. Must be B_BUSY.
void
bwrite(struct buf *b)
{
Expand All @@ -115,7 +114,8 @@ bwrite(struct buf *b)
iderw(b);
}

// Release the buffer b.
// Release a B_BUSY buffer.
// Move to the head of the MRU list.
void
brelse(struct buf *b)
{
Expand Down
8 changes: 3 additions & 5 deletions file.h
Original file line number Diff line number Diff line change
Expand Up @@ -9,8 +9,7 @@ struct file {
};


// in-core file system types

// in-memory copy of an inode
struct inode {
uint dev; // Device number
uint inum; // Inode number
Expand All @@ -24,12 +23,11 @@ struct inode {
uint size;
uint addrs[NDIRECT+1];
};

#define I_BUSY 0x1
#define I_VALID 0x2

// device implementations

// table mapping major device number to
// device functions
struct devsw {
int (*read)(struct inode*, char*, int);
int (*write)(struct inode*, char*, int);
Expand Down
54 changes: 37 additions & 17 deletions fs.c
Original file line number Diff line number Diff line change
@@ -1,11 +1,10 @@
// File system implementation. Four layers:
// File system implementation. Five layers:
// + Blocks: allocator for raw disk blocks.
// + Log: crash recovery for multi-step updates.
// + Files: inode allocator, reading, writing, metadata.
// + Directories: inode with special contents (list of other inodes!)
// + Names: paths like /usr/rtm/xv6/fs.c for convenient naming.
//
// Disk layout is: superblock, inodes, block in-use bitmap, data blocks.
//
// This file contains the low-level file system manipulation
// routines. The (higher-level) system call implementations
// are in sysfile.c.
Expand Down Expand Up @@ -61,10 +60,10 @@ balloc(uint dev)
readsb(dev, &sb);
for(b = 0; b < sb.size; b += BPB){
bp = bread(dev, BBLOCK(b, sb.ninodes));
for(bi = 0; bi < BPB && bi < (sb.size - b); bi++){
for(bi = 0; bi < BPB && b + bi < sb.size; bi++){
m = 1 << (bi % 8);
if((bp->data[bi/8] & m) == 0){ // Is block free?
bp->data[bi/8] |= m; // Mark block in use on disk.
bp->data[bi/8] |= m; // Mark block in use.
log_write(bp);
brelse(bp);
bzero(dev, b + bi);
Expand All @@ -90,22 +89,27 @@ bfree(int dev, uint b)
m = 1 << (bi % 8);
if((bp->data[bi/8] & m) == 0)
panic("freeing free block");
bp->data[bi/8] &= ~m; // Mark block free on disk.
bp->data[bi/8] &= ~m;
log_write(bp);
brelse(bp);
}

// Inodes.
//
// An inode is a single, unnamed file in the file system.
// The inode disk structure holds metadata (the type, device numbers,
// and data size) along with a list of blocks where the associated
// data can be found.
// An inode describes a single unnamed file.
// The inode disk structure holds metadata: the file's type,
// its size, the number of links referring to it, and the
// list of blocks holding the file's content.
//
// The inodes are laid out sequentially on disk immediately after
// the superblock. The kernel keeps a cache of the in-use
// on-disk structures to provide a place for synchronizing access
// to inodes shared between multiple processes.
// the superblock. Each inode has a number, indicating its
// position on the disk.
//
// The kernel keeps a cache of in-use inodes in memory
// to provide a place for synchronizing access
// to inodes used by multiple processes. The cached
// inodes include book-keeping information that is
// not stored on disk: ip->ref and ip->flags.
//
// ip->ref counts the number of pointer references to this cached
// inode; references are typically kept in struct file and in proc->cwd.
Expand All @@ -114,11 +118,12 @@ bfree(int dev, uint b)
//
// Processes are only allowed to read and write inode
// metadata and contents when holding the inode's lock,
// represented by the I_BUSY flag in the in-memory copy.
// represented by the I_BUSY bit in ip->flags.
// Because inode locks are held during disk accesses,
// they are implemented using a flag rather than with
// spin locks. Callers are responsible for locking
// inodes before passing them to routines in this file; leaving
// spin locks. ilock() and iunlock() manipulate an
// inode's I_BUSY flag. Many routines in this file expect
// the caller to have already locked the inode; leaving
// this responsibility with the caller makes it possible for them
// to create arbitrarily-sized atomic operations.
//
Expand All @@ -127,6 +132,19 @@ bfree(int dev, uint b)
// return pointers to *unlocked* inodes. It is the callers'
// responsibility to lock them before using them. A non-zero
// ip->ref keeps these unlocked inodes in the cache.
//
// In order for the file system code to look at an inode, the inode
// must pass through a number of states, with transitions
// driven by the indicated functions:
//
// * Allocated on disk, indicated by a non-zero type.
// ialloc() and iput().
// * Referenced in the cache, indicated by ip->ref > 0.
// iget() and iput().
// * Cached inode is valid, indicated by I_VALID.
// ilock() and iput().
// * Locked, indicated by I_BUSY.
// ilock() and iunlock().

struct {
struct spinlock lock;
Expand All @@ -143,6 +161,7 @@ static struct inode* iget(uint dev, uint inum);

//PAGEBREAK!
// Allocate a new inode with the given type on device dev.
// A free inode has a type of zero.
struct inode*
ialloc(uint dev, short type)
{
Expand All @@ -152,7 +171,8 @@ ialloc(uint dev, short type)
struct superblock sb;

readsb(dev, &sb);
for(inum = 1; inum < sb.ninodes; inum++){ // loop over inode blocks

for(inum = 1; inum < sb.ninodes; inum++){
bp = bread(dev, IBLOCK(inum));
dip = (struct dinode*)bp->data + inum%IPB;
if(dip->type == 0){ // a free inode
Expand Down
8 changes: 6 additions & 2 deletions fs.h
Original file line number Diff line number Diff line change
@@ -1,8 +1,12 @@
// On-disk file system format.
// Both the kernel and user programs use this header file.

// Block 0 is unused. Block 1 is super block.
// Inodes start at block 2.
// Block 0 is unused.
// Block 1 is super block.
// Blocks 2 through sb.ninodes/IPB hold inodes.
// Then free bitmap blocks holding sb.size bits.
// Then sb.nblocks data blocks.
// Then sb.nlog log blocks.

#define ROOTINO 1 // root i-number
#define BSIZE 512 // block size
Expand Down
7 changes: 3 additions & 4 deletions ide.c
Original file line number Diff line number Diff line change
Expand Up @@ -93,7 +93,7 @@ ideintr(void)
{
struct buf *b;

// Take first buffer off queue.
// First queued buffer is the active request.
acquire(&idelock);
if((b = idequeue) == 0){
release(&idelock);
Expand Down Expand Up @@ -134,11 +134,11 @@ iderw(struct buf *b)
if(b->dev != 0 && !havedisk1)
panic("iderw: ide disk 1 not present");

acquire(&idelock); // DOC:acquire-lock
acquire(&idelock); //DOC: acquire-lock

// Append b to idequeue.
b->qnext = 0;
for(pp=&idequeue; *pp; pp=&(*pp)->qnext) // DOC:insert-queue
for(pp=&idequeue; *pp; pp=&(*pp)->qnext) //DOC: insert-queue
;
*pp = b;

Expand All @@ -147,7 +147,6 @@ iderw(struct buf *b)
idestart(b);

// Wait for request to finish.
// Assuming will not sleep too long: ignore proc->killed.
while((b->flags & (B_VALID|B_DIRTY)) != B_VALID){
sleep(b, &idelock);
}
Expand Down
22 changes: 12 additions & 10 deletions log.c
Original file line number Diff line number Diff line change
Expand Up @@ -42,7 +42,7 @@ struct log {
struct spinlock lock;
int start;
int size;
int intrans;
int busy; // a transaction is active
int dev;
struct logheader lh;
};
Expand Down Expand Up @@ -75,7 +75,7 @@ install_trans(void)
struct buf *lbuf = bread(log.dev, log.start+tail+1); // read log block
struct buf *dbuf = bread(log.dev, log.lh.sector[tail]); // read dst
memmove(dbuf->data, lbuf->data, BSIZE); // copy block to dst
bwrite(dbuf); // flush dst to disk
bwrite(dbuf); // write dst to disk
brelse(lbuf);
brelse(dbuf);
}
Expand All @@ -95,7 +95,9 @@ read_head(void)
brelse(buf);
}

// Write in-memory log header to disk, committing log entries till head
// Write in-memory log header to disk.
// This is the true point at which the
// current transaction commits.
static void
write_head(void)
{
Expand Down Expand Up @@ -123,25 +125,25 @@ void
begin_trans(void)
{
acquire(&log.lock);
while (log.intrans) {
while (log.busy) {
sleep(&log, &log.lock);
}
log.intrans = 1;
log.busy = 1;
release(&log.lock);
}

void
commit_trans(void)
{
if (log.lh.n > 0) {
write_head(); // Causes all blocks till log.head to be commited
install_trans(); // Install all the transactions till head
write_head(); // Write header to disk -- the real commit
install_trans(); // Now install writes to home locations
log.lh.n = 0;
write_head(); // Reclaim log
write_head(); // Erase the transaction from the log
}

acquire(&log.lock);
log.intrans = 0;
log.busy = 0;
wakeup(&log);
release(&log.lock);
}
Expand All @@ -161,7 +163,7 @@ log_write(struct buf *b)

if (log.lh.n >= LOGSIZE || log.lh.n >= log.size - 1)
panic("too big a transaction");
if (!log.intrans)
if (!log.busy)
panic("write outside of trans");

for (i = 0; i < log.lh.n; i++) {
Expand Down

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