#include <errno.h>
struct Region {
- off_t pos;
- size_t size;
+ off_t beg;
+ off_t end;
};
struct Source {
ssize_t to;
ssize_t start; // starting position in concatenated file
int fd;
+ int dirty;
};
static struct {
size_t limit;
} overlay;
-#define FRAG(m) (overlay.table+m)
-#define BEG(m) (FRAG(m)->pos)
-#define END(m) (FRAG(m)->pos + FRAG(m)->size)
+static void usage();
+/**
+ * Find the nearest overlay.table region below pos. Returns the index,
+ * or -1 if there is none, i.e. pos < overlay.table[0].
+ */
static ssize_t overlay_prior_fragment(off_t pos) {
size_t lo = 0, hi = overlay.count;
while ( lo < hi ) {
size_t m = ( lo + hi ) / 2;
if ( m == lo ) {
- return BEG( m ) < pos? m : -1;
+ return overlay.table[m].beg <= pos? m : -1;
}
- if ( BEG( m ) <= pos ) {
+ if ( overlay.table[m].beg <= pos ) {
lo = m;
} else {
hi = m;
return -1;
}
+/**
+ * Save the entry count for overlay.table as 64-bit integer
+ * immediately following the overlay content at the index
+ * corresponding to the fused file size.
+ */
static void overlay_save_count() {
lseek( overlay.source.fd, overlay.source.to, SEEK_SET );
size_t size = sizeof( overlay.count );
size -= n;
p += n;
}
+ if ( overlay.source.dirty++ > 1000 ) {
+ fsync( overlay.source.fd );
+ overlay.source.dirty = 0;
+ }
}
+/**
+ * Update the on-disk cache of overlay.table between the given
+ * indexes. The table is laid out immediately following the table
+ * count with each region saved as two 64-bit unsigned integers.
+ */
static void overlay_save_table(size_t lo,size_t hi) {
- char *p = (char *) FRAG(lo);
+ char *p = (char *) &overlay.table[ lo ];
size_t pos = overlay.source.to + sizeof( overlay.count ) +
lo * sizeof( struct Region );
size_t size = ( hi - lo ) * sizeof( struct Region );
size -= n;
p += n;
}
+ if ( overlay.source.dirty++ > 1000 ) {
+ fsync( overlay.source.fd );
+ overlay.source.dirty = 0;
+ }
}
-static void overlay_insert(size_t p,off_t pos,size_t size) {
+/**
+ * Insert a new region at index p, with previous portion [p,count]
+ * moved up to make space.
+ */
+static void overlay_insert(size_t p,off_t beg,off_t end) {
size_t bytes;
+ // Grow the table if needed
if ( overlay.count >= overlay.limit ) {
overlay.limit = overlay.count + 10;
bytes = overlay.limit * sizeof( struct Region );
}
bytes = ( overlay.count++ - p ) * sizeof( struct Region );
if ( bytes ) {
- memmove( FRAG( p+1 ), FRAG( p ), bytes );
+ memmove( (char*) &overlay.table[ p+1 ],
+ (char*) &overlay.table[ p ],
+ bytes );
}
- FRAG( p )->pos = pos;
- FRAG( p )->size = size;
+ overlay.table[ p ].beg = beg;
+ overlay.table[ p ].end = end;
overlay_save_count();
}
+/**
+ * Delete the region entry at p by moving the portion [p+1,count]
+ * down.
+ */
static void overlay_delete(size_t p) {
- if ( p < --overlay.count ) {
- size_t size = ( overlay.count - p ) * sizeof( struct Region );
- memmove( FRAG(p), FRAG(p+1), size );
+ size_t bytes = ( --overlay.count - p ) * sizeof( struct Region );
+ if ( bytes ) {
+ memmove( (char*) &overlay.table[ p ],
+ (char*) &overlay.table[ p+1 ],
+ bytes );
}
- overlay_save_count();
}
-static void overlay_mark(off_t pos,size_t size) {
- ssize_t p = overlay_prior_fragment( pos );
- if ( p >= 0 && pos <= END(p) ) {
- // Merge new marks with fragment p
- FRAG(p)->size = pos + size - BEG(p);
- if ( p+1 < overlay.count && BEG(p+1) <= END(p) ) {
- FRAG(p)->size = END(p+1) - BEG(p);
- overlay_delete( p+1 );
- overlay_save_table( p, overlay.count );
- } else {
- overlay_save_table( p, p+1 );
+/**
+ * Mark the given region as updated, i.e. written to the overlay. The
+ * mark region may attach to prior marked regions or be a new,
+ * separate region. If attaching, it causes the prior regions to
+ * expand and the table adjusted by deleting any regions that become
+ * fully contained in other regions.
+ */
+static void overlay_mark(off_t beg,off_t end) {
+#if DEBUG
+ fprintf( stderr, "overlay_mark( %ld, %ld )\n", beg, end );
+#endif
+ int deleted = 0;
+ ssize_t q;
+ ssize_t p = overlay_prior_fragment( beg );
+ // p is the nearest region below or at beg (or -1)
+ if ( p >= 0 && beg <= overlay.table[p].end ) {
+ // p overlaps mark region
+ if ( end <= overlay.table[p].end ) {
+ // region p covers mark region already
+#if DEBUG
+ fprintf( stderr, "overlay covering ( %ld %ld )\n",
+ overlay.table[p].beg, overlay.table[p].end );
+#endif
+ return;
+ }
+ // the new mark region extends region p
+ overlay.table[p].end = end;
+ q = p+1;
+ while ( q < overlay.count &&
+ overlay.table[q].beg <= overlay.table[p].end ) {
+ // Extended region merges with subsequent region
+ if ( overlay.table[p].end < overlay.table[q].end ) {
+ overlay.table[p].end = overlay.table[q].end;
+ }
+ overlay_delete( q );
+ deleted++;
+ }
+ if ( deleted ) {
+ overlay_save_count();
+ q = overlay.count;
}
+ overlay_save_table( p, q );
+#if DEBUG
+ fprintf( stderr, "overlay expand ( %ld %ld ) deleted %d\n",
+ overlay.table[p].beg, overlay.table[p].end, deleted );
+#endif
return;
}
- p++; // index of subsequent fragment
- if ( p < overlay.count && BEG(p) < pos + size ) {
- // Merge new marks with pragment p+1
- FRAG(p)->size = END(p) - pos;
- FRAG(p)->pos = pos;
- overlay_save_table( p, p+1 );
- } else {
- overlay_insert( p, pos, size);
+ // The prior region p does not expand into new mark region
+ p++; // subsequent region
+ if ( p >= overlay.count || end < overlay.table[p].beg ) {
+ // New mark region is a separate region at p
+ overlay_insert( p, beg, end );
+#if DEBUG
+ fprintf( stderr, "overlay new ( %ld %ld )\n",
+ overlay.table[p].beg, overlay.table[p].end );
+#endif
overlay_save_table( p, overlay.count );
+ return;
+ }
+ // New marks start before and overlap with region p => change p
+ // and handle any subsequent regions being covered
+ overlay.table[p].beg = beg;
+ q = p+1;
+ if ( overlay.table[p].end < end ) {
+ overlay.table[p].end = end;
+ while ( q < overlay.count &&
+ overlay.table[q].beg <= overlay.table[p].end ) {
+ if ( overlay.table[p].end < overlay.table[q].end ) {
+ overlay.table[p].end = overlay.table[q].end;
+ }
+ overlay_delete( q );
+ deleted++;
+ }
+ if ( deleted ) {
+ overlay_save_count();
+ q = overlay.count;
+ }
+ }
+ overlay_save_table( p, q );
+#if DEBUG
+ fprintf( stderr, "overlay before ( %ld %ld ) deleted %d\n",
+ overlay.table[p].beg, overlay.table[p].end, deleted );
+#endif
+}
+
+static void setup_overlay(char *filename) {
+ overlay.source.filename = filename;
+ overlay.source.fd = open( filename, O_RDWR | O_CREAT, S_IRUSR | S_IWUSR );
+ if ( overlay.source.fd < 0 ) {
+ perror( filename );
+ usage();
}
}
return ( s == n ) && *(range+c) == 0;
}
-static void usage();
-
-static void setup_overlay(char *filename) {
- overlay.source.filename = filename;
- overlay.source.fd = open( filename, O_RDWR | O_CREAT, S_IRUSR | S_IWUSR );
- if ( overlay.source.fd < 0 ) {
- perror( filename );
- usage();
- }
-}
-
static int setup_sources(char **argv,int i,int n) {
sources.array = calloc( n, sizeof( struct Source ) );
if ( sources.array == 0 ) {
return lo;
}
-static int overlay_merge(char *buf,off_t off,size_t size) {
+static int overlay_merge(char *buf,off_t beg,off_t end) {
#if DEBUG
- fprintf( stderr, "merge %ld %ld\n", off, size );
+ fprintf( stderr, "merge %ld %ld\n", beg, end );
#endif
- // Find nearest overlay data before or at off
- ssize_t p = overlay_prior_fragment( off );
+ // Find nearest overlay data before or at beg
+ ssize_t p = overlay_prior_fragment( beg );
if ( p < 0 ) {
p = 0;
}
- for ( ; p < overlay.count && BEG(p) < off+size; p++ ) {
- size_t delta = FRAG(p)->size;
- if ( BEG(p) > off ) {
- size_t skip = BEG(p) - off;
- off += skip;
- size -= skip;
- buf += skip;
- } else {
- delta = off - BEG(p);
+ for ( ; p < overlay.count && overlay.table[p].beg < end; p++ ) {
+ if ( overlay.table[p].end < beg ) {
+ continue;
}
- if ( delta > size ) {
- delta = size;
+ if ( overlay.table[p].beg > beg ) {
+ size_t delta = overlay.table[p].beg - beg;
+ buf += delta;
+ beg += delta;
}
- lseek( overlay.source.fd, off, SEEK_SET );
- while ( delta > 0 ) {
- size_t n = read( overlay.source.fd, buf, delta );
- off += n;
+ size_t size = ( overlay.table[p].end <= end )?
+ ( overlay.table[p].end - beg ) : ( end - beg );
+ lseek( overlay.source.fd, beg, SEEK_SET );
+ while ( size > 0 ) {
+ size_t n = read( overlay.source.fd, buf, size );
size -= n;
- delta -= n;
buf += n;
+ beg += n; //
}
}
-#if DEBUG
- fprintf( stderr, "merged\n" );
-#endif
return 0;
}
if ( n > size ) {
n = size;
}
+ if ( sources.array[i].dirty ) {
+ fsync( sources.array[i].fd );
+ sources.array[i].dirty = 0;
+ }
#if DEBUG
fprintf( stderr, " seek fd=%d to %ld\n", sources.array[i].fd, b );
#endif
n, sources.array[i].fd );
#endif
ssize_t r = read( sources.array[i].fd, buf + rr, n );
- if ( overlay.source.filename ) {
- int x = overlay_merge( buf + rr, off + rr, r );
- if ( x ) {
- return x;
- }
- }
#if DEBUG
fprintf( stderr, " got %ld bytes\n", r );
#endif
if ( r == 0 ) {
break;
}
+ if ( overlay.source.filename ) {
+ if ( overlay.source.dirty ) {
+ fsync( overlay.source.fd );
+ overlay.source.dirty = 0;
+ }
+ int x = overlay_merge( buf + rr, off + rr, off + rr + r );
+ if ( x ) {
+ return x;
+ }
+ }
rr += r;
off += r;
size -= r;
exit( 1 );
}
#if DEBUG
- fprintf( stderr, "overlay region: %ld %ld\n", f.pos, f.size );
+ fprintf( stderr, "overlay region: %ld %ld\n", f.beg, f.end );
#endif
- overlay_mark( f.pos, f.size );
+ overlay_mark( f.beg, f.end );
}
}
#if DEBUG
fprintf( stderr, "write_block( %ld, ?, %ld )\n", off, size );
#endif
+ if ( overlay.source.filename ) {
+ overlay_mark( off, off + size ); // Mark region as written
+ }
while ( size > 0 ) {
int index = find_source( off ); // index of source file
if ( index < 0 ) {
return -EIO; // past EOF
}
- struct Source *source;
- if ( overlay.source.filename ) {
- source = &overlay.source;
- overlay_mark( off, size ); // Mark region as written
- } else {
- source = &sources.array[ index ];
- }
+ struct Source *source = overlay.source.filename?
+ &overlay.source : &sources.array[ index ];
off_t from = off - source->start + source->from;
off_t max = source->to - from;
if ( lseek( source->fd, from, SEEK_SET ) < 0 ) {
size -= n;
off += n;
}
+ if ( source->dirty++ >= 1000 ) {
+ fsync( source->fd );
+ source->dirty = 0;
+ }
}
return 0;
}
}
}
+static void fsync_all_dirty() {
+ int i = 0;
+ for ( ; i < sources.count; i++ ) {
+ if ( sources.array[i].dirty ) {
+ fsync( sources.array[i].fd );
+ sources.array[i].dirty = 0;
+ }
+ }
+ if ( overlay.source.filename && overlay.source.dirty ) {
+ fsync( overlay.source.fd );
+ overlay.source.dirty = 0;
+ }
+}
+
static int fusefile_flush(const char *path, struct fuse_file_info *info) {
#if DEBUG
fprintf( stderr, "fusefile_flush( %s )\n", path );
if ( strcmp( path, "/" ) != 0 ) {
return -ENOENT;
}
+ fsync_all_dirty();
return 0;
}
if ( strcmp( path, "/" ) != 0 ) {
return -ENOENT;
}
+ fsync_all_dirty();
return 0;
}