#include #include #include "iotrack.h" #include "dat.h" #include "fns.h" #define FIDMOD 127 /* prime */ static Xfs *xhead; static Xfile *xfiles[FIDMOD], *freelist; static MLock xlock, xlocks[FIDMOD], freelock; static int okmode(int omode, int fmode) { if(omode == OREAD) return fmode & 4; /* else ORDWR */ return (fmode & 6) == 6; } Xfs * getxfs(char *user, char *name) { Xfs *xf, *fxf; Dir *dir; Qid dqid; char *p, *q; long offset; int fd, omode; USED(user); if(name==nil || name[0]==0) name = deffile; if(name == nil){ errno = Enofilsys; return 0; } /* * If the name passed is of the form 'name:offset' then * offset is used to prime xf->offset. This allows accessing * a FAT-based filesystem anywhere within a partition. * Typical use would be to mount a filesystem in the presence * of a boot manager programme at the beginning of the disc. */ offset = 0; if(p = strrchr(name, ':')){ *p++ = 0; offset = strtol(p, &q, 0); chat("name %s, offset %ld\n", p, offset); if(offset < 0 || p == q){ errno = Enofilsys; return 0; } offset *= Sectorsize; } if(readonly) omode = OREAD; else omode = ORDWR; fd = open(name, omode); if(fd < 0 && omode==ORDWR){ omode = OREAD; fd = open(name, omode); } if(fd < 0){ chat("can't open %s: %r\n", name); errno = Eerrstr; return 0; } dir = dirfstat(fd); if(dir == nil){ errno = Eio; close(fd); return 0; } dqid = dir->qid; free(dir); mlock(&xlock); for(fxf=0,xf=xhead; xf; xf=xf->next){ if(xf->ref == 0){ if(fxf == 0) fxf = xf; continue; } if(!eqqid(xf->qid, dqid)) continue; if(strcmp(xf->name, name) != 0 || xf->dev < 0) continue; if(devcheck(xf) < 0) /* look for media change */ continue; if(offset && xf->offset != offset) continue; chat("incref \"%s\", dev=%d...", xf->name, xf->dev); ++xf->ref; unmlock(&xlock); close(fd); return xf; } if(fxf == nil){ fxf = malloc(sizeof(Xfs)); if(fxf == nil){ unmlock(&xlock); close(fd); errno = Enomem; return nil; } fxf->next = xhead; xhead = fxf; } chat("alloc \"%s\", dev=%d...", name, fd); fxf->name = strdup(name); fxf->ref = 1; fxf->qid = dqid; fxf->dev = fd; fxf->fmt = 0; fxf->offset = offset; fxf->ptr = nil; fxf->isfat32 = 0; fxf->omode = omode; unmlock(&xlock); return fxf; } void refxfs(Xfs *xf, int delta) { mlock(&xlock); xf->ref += delta; if(xf->ref == 0){ chat("free \"%s\", dev=%d...", xf->name, xf->dev); free(xf->name); free(xf->ptr); purgebuf(xf); if(xf->dev >= 0){ close(xf->dev); xf->dev = -1; } } unmlock(&xlock); } Xfile * xfile(int fid, int flag) { Xfile **hp, *f, *pf; int k; k = ((ulong)fid) % FIDMOD; hp = &xfiles[k]; mlock(&xlocks[k]); pf = nil; for(f=*hp; f; f=f->next){ if(f->fid == fid) break; pf = f; } if(f && pf){ pf->next = f->next; f->next = *hp; *hp = f; } switch(flag){ default: panic("xfile"); case Asis: unmlock(&xlocks[k]); return (f && f->xf && f->xf->dev < 0) ? nil : f; case Clean: break; case Clunk: if(f){ *hp = f->next; unmlock(&xlocks[k]); clean(f); mlock(&freelock); f->next = freelist; freelist = f; unmlock(&freelock); } else unmlock(&xlocks[k]); return nil; } unmlock(&xlocks[k]); if(f) return clean(f); mlock(&freelock); if(f = freelist){ /* assign = */ freelist = f->next; unmlock(&freelock); } else { unmlock(&freelock); f = malloc(sizeof(Xfile)); if(f == nil){ errno = Enomem; return nil; } } mlock(&xlocks[k]); f->next = *hp; *hp = f; unmlock(&xlocks[k]); f->fid = fid; f->flags = 0; f->qid = (Qid){0,0,0}; f->xf = nil; f->ptr = nil; return f; } Xfile * clean(Xfile *f) { if(f->ptr){ free(f->ptr); f->ptr = nil; } if(f->xf){ refxfs(f->xf, -1); f->xf = nil; } f->flags = 0; f->qid = (Qid){0,0,0}; return f; } /* * the file at has moved * relocate the dos entries of all fids in the same file */ void dosptrreloc(Xfile *f, Dosptr *dp, ulong addr, ulong offset) { int i; Xfile *p; Dosptr *xdp; for(i=0; i < FIDMOD; i++){ for(p = xfiles[i]; p != nil; p = p->next){ xdp = p->ptr; if(p != f && p->xf == f->xf && xdp != nil && xdp->addr == addr && xdp->offset == offset){ memmove(xdp, dp, sizeof(Dosptr)); xdp->p = nil; xdp->d = nil; p->qid.path = QIDPATH(xdp); } } } }