ref: 4308f6e7e6586e3a27aa46c4d54c434b8533b16d
dir: /sys/src/cmd/cwfs/mworm.c/
#include "all.h" /* * multiple cat devices */ void mcatinit(Device *d) { Device *x, **list; d->cat.ndev = 0; for(x=d->cat.first; x; x=x->link) { devinit(x); d->cat.ndev++; } list = ialloc((uintptr)d->cat.ndev * sizeof(Device*), 0); d->private = list; for(x=d->cat.first; x; x=x->link) { *list++ = x; x->size = devsize(x); } } Devsize mcatsize(Device *d) { Device *x; Devsize l, m; l = 0; for(x=d->cat.first; x; x=x->link) { m = x->size; if(m == 0) { m = devsize(x); x->size = m; } l += m; } return l; } int mcatread(Device *d, Off b, void *c) { Device *x; Devsize l, m; l = 0; for(x=d->cat.first; x; x=x->link) { m = x->size; if(m == 0) { m = devsize(x); x->size = m; } if(b < l+m) return devread(x, b-l, c); l += m; } fprint(2, "mcatread past end: %Z block %lld, %lld beyond end\n", d, (Wideoff)b, (Wideoff)l); return 1; } int mcatwrite(Device *d, Off b, void *c) { Device *x; Devsize l, m; l = 0; for(x=d->cat.first; x; x=x->link) { m = x->size; if(m == 0) { m = devsize(x); x->size = m; } if(b < l+m) return devwrite(x, b-l, c); l += m; } fprint(2, "mcatwrite past end: %Z block %lld, %lld beyond end\n", d, (Wideoff)b, (Wideoff)l); return 1; } /* * multiple interleave devices */ void mlevinit(Device *d) { Device *x; mcatinit(d); for(x=d->cat.first; x; x=x->link) x->size = devsize(x); } Devsize mlevsize(Device *d) { Device *x; int n; Devsize m, min; min = 0; n = 0; for(x=d->cat.first; x; x=x->link) { m = x->size; if(m == 0) { m = devsize(x); x->size = m; } if(min == 0 || m < min) min = m; n++; } return n * min; } int mlevread(Device *d, Off b, void *c) { int n; Device **list; n = d->cat.ndev; list = d->private; return devread(list[b%n], b/n, c); } int mlevwrite(Device *d, Off b, void *c) { int n; Device **list; n = d->cat.ndev; list = d->private; return devwrite(list[b%n], b/n, c); } /* * partition device */ void partinit(Device *d) { devinit(d->part.d); d->part.d->size = devsize(d->part.d); } Devsize partsize(Device *d) { Devsize size, l; l = d->part.d->size / 100; size = d->part.size * l; if(size == 0) size = l*100; return size; } int partread(Device *d, Off b, void *c) { Devsize base, size, l; l = d->part.d->size / 100; base = d->part.base * l; size = d->part.size * l; if(size == 0) size = l*100; if(b < size) return devread(d->part.d, base+b, c); fprint(2, "partread past end: %Z blk %lld size %lld\n", d, (Wideoff)b, (Wideoff)size); return 1; } int partwrite(Device *d, Off b, void *c) { Devsize base, size, l; l = d->part.d->size / 100; base = d->part.base * l; size = d->part.size * l; if(size == 0) size = l*100; if(b < size) return devwrite(d->part.d, base+b, c); fprint(2, "partwrite past end: %Z blk %lld size %lld\n", d, (Wideoff)b, (Wideoff)size); return 1; } /* * mirror device */ void mirrinit(Device *d) { Device *x; mcatinit(d); for(x=d->cat.first; x; x=x->link) x->size = devsize(x); } Devsize mirrsize(Device *d) { Device *x; int n; Devsize m, min; min = 0; n = 0; for(x=d->cat.first; x; x=x->link) { m = x->size; if(m == 0) { m = devsize(x); x->size = m; } if(min == 0 || m < min) min = m; n++; } return min; } int mirrread(Device *d, Off b, void *c) { Device *x; if (d->cat.first == nil) { fprint(2, "mirrread: empty mirror %Z\n", d); return 1; } for(x=d->cat.first; x; x=x->link) { if(x->size == 0) x->size = devsize(x); if (devread(x, b, c) == 0) /* okay? */ return 0; } // DANGER WILL ROBINSON fprint(2, "mirrread: all mirrors of %Z block %lld are bad\n", d, (Wideoff)b); return 1; } /* * write the mirror(s) first so that a power outage, for example, will * find the main device written only if the mirrors are too, thus * checking the main device will also correctly check the mirror(s). * * devread and devwrite are synchronous; all buffering must be * implemented at higher levels. */ static int ewrite(Device *x, Off b, void *c) { if(x->size == 0) x->size = devsize(x); if (devwrite(x, b, c) != 0) { fprint(2, "mirrwrite: error at %Z block %lld\n", x, (Wideoff)b); return 1; } return 0; } static int wrmirrs1st(Device *x, Off b, void *c) // write any mirrors of x, then x { int e; if (x == nil) return 0; e = wrmirrs1st(x->link, b, c); return e | ewrite(x, b, c); } int mirrwrite(Device *d, Off b, void *c) { if (d->cat.first == nil) { fprint(2, "mirrwrite: empty mirror %Z\n", d); return 1; } return wrmirrs1st(d->cat.first, b, c); }