ref: dfb4b522830edab8f3856289d326d6cf5e930644
dir: /sys/src/cmd/cfs/inode.c/
#include <u.h> #include <libc.h> #include "cformat.h" #include "lru.h" #include "bcache.h" #include "disk.h" #include "inode.h" #include "stats.h" /* * read the inode blocks and make sure they * haven't been trashed. * * make the in-core table of qid to inode mappings. * N.B. this is just an array. we need a linear search to find * a particular inode. this could be done faster. * * nab is the first inode block. */ int iinit(Icache *ic, int f, int psize, char* name) { Ibuf *b; Imap *m; ulong ino; Bbuf *bb; Dinode *bi; /* * get basic sizes and allocation info from disk */ if(dinit(ic, f, psize, name) < 0) return -1; /* * read first inode block to get number of inodes */ bb = bcread(ic, ic->nab); if(bb == 0){ fprint(2, "iinit: can't read disk\n"); return -1; } bi = (Dinode*)bb->data; if(bi->nino==0 || bi->nino>2048){ fprint(2, "iinit: bad nino\n"); return -1; } ic->nino = bi->nino; /* * set up sizing constants */ ic->i2b = (ic->bsize - sizeof(Dihdr))/sizeof(Inode); ic->nib = (ic->nino + ic->i2b - 1)/ic->i2b; /* * allocate the in-core qid/inode map, build it's lru */ if(ic->map) free(ic->map); ic->map = malloc(sizeof(Imap)*ic->nino); if(ic->map == 0){ fprint(2, "iinit: can't alloc map\n"); return -1; } lruinit(&ic->mlru); for(m = ic->map; m < &ic->map[ic->nino]; m++){ m->inuse = 0; m->b = 0; lruadd(&ic->mlru, m); } /* * mark all cache buffers as empty, put them on the lru list */ lruinit(&ic->blru); for(b = ic->ib; b < &ic->ib[Nicache]; b++){ b->inuse = 0; lruadd(&ic->blru, b); } /* * Read all inodes and * build the in-core qid/inode map */ for(ino = 0; ino < ic->nino; ino++){ b = iread(ic, ino); if(b == 0){ fprint(2, "iinit: can't read inode %ld\n", ino); return -1; } if(b->inode.inuse){ m = &ic->map[ino]; m->inuse = 1; m->qid = b->inode.qid; lruref(&ic->mlru, m); } } return 0; } /* * format the inode blocks */ int iformat(Icache *ic, int f, ulong nino, char *name, int bsize, int psize) { int nib; ulong bno, i2b, i; Bbuf *bb; Dinode *bi; /* * first format disk allocation */ if(dformat(ic, f, name, bsize, psize) < 0) return -1; fprint(2, "formatting inodes\n"); i2b = (bsize - sizeof(Dihdr))/sizeof(Inode); nib = (nino + i2b - 1)/i2b; for(bno = ic->nab; bno < ic->nab + nib; bno++){ if(dalloc(ic, 0) == Notabno){ fprint(2, "iformat: balloc failed\n"); return -1; } bb = bcalloc(ic, bno); if(bb == 0){ fprint(2, "iformat: bcalloc failed\n"); return -1; } bi = (Dinode*)bb->data; bi->magic = Imagic; bi->nino = nino; for(i = 0; i < i2b; i++) bi->inode[i].inuse = 0; bcmark(ic, bb); } bcsync(ic); return iinit(ic, f, psize, name); } /* * allocate a cache buffer, use least recently used */ Ibuf* ialloc(Icache *ic, ulong ino) { Imap *m; Ibuf *b; b = (Ibuf*)ic->blru.lnext; if(b->inuse) ic->map[b->ino].b = 0; b->ino = ino; b->inuse = 1; m = &ic->map[ino]; m->b = b; return b; } /* * free a cache buffer */ void ifree(Icache *ic, Ibuf *b) { b->inuse = 0; if(b->inuse) ic->map[b->ino].b = 0; lruderef(&ic->blru, b); } /* * get an inode into the cache. if no inode exists for this qid, create one * from an unused qid/inode map. */ Ibuf * iget(Icache *ic, Qid qid) { Imap *m, *me; Ibuf *b; /* * find map entry with same qid.path */ for(m = ic->map, me = &ic->map[ic->nino]; m < me; m++) if(m->inuse && m->qid.path==qid.path){ if(m->qid.vers != qid.vers){ /* * our info is old, forget it */ DPRINT(2, "updating old file %llud.%lud\n", qid.path, qid.vers); m->qid = qid; iupdate(ic, m - ic->map, qid); } break; } /* * if an already existing inode, just get it */ if(m != me) return iread(ic, m - ic->map); /* * create a new inode, throw out the least recently used inode * if necessary */ m = (Imap*)ic->mlru.lnext; if(m->inuse){ DPRINT(2, "superceding file %llud.%ld by %llud.%ld\n", m->qid.path, m->qid.vers, qid.path, qid.vers); if(iremove(ic, m - ic->map) < 0) return 0; } if(statson) cfsstat.ninsert++; /* * init inode and write to disk */ DPRINT(2, "new file %llud.%ld ino %zd\n", qid.path, qid.vers, m - ic->map); b = ialloc(ic, m - ic->map); b->inode.inuse = m->inuse = 1; b->inode.qid = qid; b->inode.length = 0x7fffffffffffffffLL; m->qid = qid; b->inode.ptr.bno = Notabno; iwrite(ic, b); return b; } /* * read an inode into the cache * * ASSUMPTION: the inode is valid */ Ibuf* iread(Icache *ic, ulong ino) { Ibuf *b; Imap *m; ulong bno; Bbuf *bb; Dinode *bi; /* * first see if we already have it in a cache entry */ m = &ic->map[ino]; if(m->inuse && m->b){ b = m->b; goto out; } /* * read it */ b = ialloc(ic, ino); bno = ic->nab + ino/ic->i2b; bb = bcread(ic, bno); if(bb == 0){ ifree(ic, b); return 0; } bi = (Dinode*)bb->data; b->inode = bi->inode[ino % ic->i2b]; /* * consistency check */ if(bi->nino!=ic->nino || bi->magic!=Imagic){ fprint(2, "iread: inconsistent inode block\n"); ifree(ic, b); return 0; } out: b->inuse = 1; m->b = b; if(b->inode.inuse) lruref(&ic->mlru, m); lruref(&ic->blru, b); return b; } /* * write an inode back to disk */ int iwrite(Icache *ic, Ibuf *b) { ulong bno; Bbuf *bb; Dinode *bi; bno = ic->nab + b->ino/ic->i2b; bb = bcread(ic, bno); if(bb == 0) return 0; bi = (Dinode*)bb->data; bi->inode[b->ino % ic->i2b] = b->inode; bcmark(ic, bb); lruref(&ic->mlru, &ic->map[b->ino]); lruref(&ic->blru, b); return 0; } /* * Forget what we know about an inode without removing it * * N.B: ordering of iwrite and dfree is important */ int iupdate(Icache *ic, ulong ino, Qid qid) { Ibuf *b; Imap *m; Dptr d; if(statson) cfsstat.nupdate++; b = iread(ic, ino); if(b == 0) return -1; /* * update inode and map */ b->inode.qid = qid; b->inode.length = 0x7fffffffffffffffLL; /* Set to maximum */ m = &ic->map[ino]; m->qid = qid; /* * the free is not done if the write fails! * this is important */ d = b->inode.ptr; b->inode.ptr.bno = Notabno; if(iwrite(ic, b) < 0) return -1; dfree(ic, &d); return 0; } /* * remove an inode * * N.B: ordering of iwrite and dfree is important */ int iremove(Icache *ic, ulong ino) { Ibuf *b; Imap *m; if(statson) cfsstat.ndelete++; m = &ic->map[ino]; /* * read in inode */ b = iread(ic, ino); if(b == 0) return -1; /* * mark it unused on disk */ b->inode.inuse = 0; if(iwrite(ic, b) < 0) return -1; /* * throw out it's data pages */ dfree(ic, &b->inode.ptr); /* * free the inode buffer */ ifree(ic, b); /* * make map entry least recently used */ lruderef(&ic->mlru, m); return 0; } /* * increment our version number */ void iinc(Icache *ic, Ibuf *b) { b->inode.qid.vers++; ic->map[b->ino].qid = b->inode.qid; iwrite(ic, b); }