ref: e23bb0103b46e73f9ce8d69abb19a3726135fff3
dir: /sys/src/9/port/sysfile.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" /* * The sys*() routines needn't poperror() as they return directly to syscall(). */ static void unlockfgrp(Fgrp *f) { int ex; ex = f->exceed; f->exceed = 0; unlock(f); if(ex) pprint("warning: process exceeds %d file descriptors\n", ex); } static int growfd(Fgrp *f, int fd) /* fd is always >= 0 */ { Chan **newfd, **oldfd; uchar *newflag, *oldflag; int nfd; nfd = f->nfd; if(fd < nfd) return 0; if(fd >= nfd+DELTAFD) return -1; /* out of range */ /* * Unbounded allocation is unwise; besides, there are only 16 bits * of fid in 9P */ if(nfd >= 5000){ Exhausted: print("no free file descriptors\n"); return -1; } oldfd = f->fd; oldflag = f->flag; newfd = malloc((nfd+DELTAFD)*sizeof(newfd[0])); if(newfd == nil) goto Exhausted; memmove(newfd, oldfd, nfd*sizeof(newfd[0])); newflag = malloc((nfd+DELTAFD)*sizeof(newflag[0])); if(newflag == nil){ free(newfd); goto Exhausted; } memmove(newflag, oldflag, nfd*sizeof(newflag[0])); f->fd = newfd; f->flag = newflag; f->nfd = nfd+DELTAFD; if(fd > f->maxfd){ if(fd/100 > f->maxfd/100) f->exceed = (fd/100)*100; f->maxfd = fd; } free(oldfd); free(oldflag); return 1; } /* * this assumes that the fgrp is locked */ static int findfreefd(Fgrp *f, int start) { int fd; for(fd=start; fd<f->nfd; fd++) if(f->fd[fd] == nil) break; if(fd >= f->nfd && growfd(f, fd) < 0) return -1; return fd; } int newfd(Chan *c, int mode) { int fd, flag; Fgrp *f; f = up->fgrp; lock(f); fd = findfreefd(f, 0); if(fd < 0){ unlockfgrp(f); return -1; } if(fd > f->maxfd) f->maxfd = fd; f->fd[fd] = c; /* per file-descriptor flags */ flag = 0; if(mode & OCEXEC) flag |= CCEXEC; f->flag[fd] = flag; unlockfgrp(f); return fd; } static int newfd2(int fd[2], Chan *c[2]) { Fgrp *f; f = up->fgrp; lock(f); fd[0] = findfreefd(f, 0); if(fd[0] < 0){ unlockfgrp(f); return -1; } fd[1] = findfreefd(f, fd[0]+1); if(fd[1] < 0){ unlockfgrp(f); return -1; } if(fd[1] > f->maxfd) f->maxfd = fd[1]; f->fd[fd[0]] = c[0]; f->fd[fd[1]] = c[1]; f->flag[fd[0]] = 0; f->flag[fd[1]] = 0; unlockfgrp(f); return 0; } Chan* fdtochan(int fd, int mode, int chkmnt, int iref) { Chan *c; Fgrp *f; c = nil; f = up->fgrp; lock(f); if(fd<0 || f->nfd<=fd || (c = f->fd[fd])==nil) { unlock(f); error(Ebadfd); } if(iref) incref(c); unlock(f); if(chkmnt && (c->flag&CMSG)) { if(iref) cclose(c); error(Ebadusefd); } if(mode<0 || c->mode==ORDWR) return c; if((mode&OTRUNC) && c->mode==OREAD) { if(iref) cclose(c); error(Ebadusefd); } if((mode&~OTRUNC) != c->mode) { if(iref) cclose(c); error(Ebadusefd); } return c; } int openmode(ulong o) { o &= ~(OTRUNC|OCEXEC|ORCLOSE); if(o > OEXEC) error(Ebadarg); if(o == OEXEC) return OREAD; return o; } uintptr sysfd2path(va_list list) { Chan *c; char *buf; uint len; int fd; fd = va_arg(list, int); buf = va_arg(list, char*); len = va_arg(list, uint); validaddr((uintptr)buf, len, 1); c = fdtochan(fd, -1, 0, 1); snprint(buf, len, "%s", chanpath(c)); cclose(c); return 0; } uintptr syspipe(va_list list) { static char *datastr[] = {"data", "data1"}; int fd[2], *ufd; Chan *c[2]; ufd = va_arg(list, int*); validaddr((uintptr)ufd, sizeof(fd), 1); evenaddr((uintptr)ufd); ufd[0] = ufd[1] = fd[0] = fd[1] = -1; c[0] = namec("#|", Atodir, 0, 0); c[1] = nil; if(waserror()){ cclose(c[0]); if(c[1] != nil) cclose(c[1]); nexterror(); } c[1] = cclone(c[0]); if(walk(&c[0], datastr+0, 1, 1, nil) < 0) error(Egreg); if(walk(&c[1], datastr+1, 1, 1, nil) < 0) error(Egreg); c[0] = devtab[c[0]->type]->open(c[0], ORDWR); c[1] = devtab[c[1]->type]->open(c[1], ORDWR); if(newfd2(fd, c) < 0) error(Enofd); ufd[0] = fd[0]; ufd[1] = fd[1]; poperror(); return 0; } uintptr sysdup(va_list list) { int fd; Chan *c, *oc; Fgrp *f = up->fgrp; fd = va_arg(list, int); /* * Close after dup'ing, so date > #d/1 works */ c = fdtochan(fd, -1, 0, 1); fd = va_arg(list, int); if(fd != -1){ lock(f); if(fd<0 || growfd(f, fd)<0) { unlockfgrp(f); cclose(c); error(Ebadfd); } if(fd > f->maxfd) f->maxfd = fd; oc = f->fd[fd]; f->fd[fd] = c; f->flag[fd] = 0; unlockfgrp(f); if(oc != nil) cclose(oc); }else{ if(waserror()) { cclose(c); nexterror(); } fd = newfd(c, 0); if(fd < 0) error(Enofd); poperror(); } return (uintptr)fd; } uintptr sysopen(va_list list) { int fd; Chan *c; char *name; ulong mode; name = va_arg(list, char*); mode = va_arg(list, ulong); openmode(mode); /* error check only */ validaddr((uintptr)name, 1, 0); c = namec(name, Aopen, mode, 0); if(waserror()){ cclose(c); nexterror(); } fd = newfd(c, mode); if(fd < 0) error(Enofd); poperror(); return (uintptr)fd; } void fdclose(int fd, int flag) { Chan *c; Fgrp *f = up->fgrp; lock(f); c = fd <= f->maxfd ? f->fd[fd] : nil; if(c == nil || (flag != 0 && ((f->flag[fd]|c->flag)&flag) == 0)){ unlock(f); return; } f->fd[fd] = nil; if(fd == f->maxfd){ while(fd > 0 && f->fd[fd] == nil) f->maxfd = --fd; } unlock(f); cclose(c); } uintptr sysclose(va_list list) { int fd; fd = va_arg(list, int); fdtochan(fd, -1, 0, 0); fdclose(fd, 0); return 0; } long unionread(Chan *c, void *va, long n) { int i; long nr; Mhead *m; Mount *mount; eqlock(&c->umqlock); m = c->umh; rlock(&m->lock); mount = m->mount; /* bring mount in sync with c->uri and c->umc */ for(i = 0; mount != nil && i < c->uri; i++) mount = mount->next; nr = 0; while(mount != nil){ /* Error causes component of union to be skipped */ if(mount->to != nil && !waserror()){ if(c->umc == nil){ c->umc = cclone(mount->to); c->umc = devtab[c->umc->type]->open(c->umc, OREAD); } nr = devtab[c->umc->type]->read(c->umc, va, n, c->umc->offset); c->umc->offset += nr; poperror(); } if(nr > 0) break; /* Advance to next element */ c->uri++; if(c->umc != nil){ cclose(c->umc); c->umc = nil; } mount = mount->next; } runlock(&m->lock); qunlock(&c->umqlock); return nr; } static void unionrewind(Chan *c) { eqlock(&c->umqlock); c->uri = 0; if(c->umc != nil){ cclose(c->umc); c->umc = nil; } qunlock(&c->umqlock); } static int dirfixed(uchar *p, uchar *e, Dir *d) { int len; len = GBIT16(p)+BIT16SZ; if(p + len > e) return -1; p += BIT16SZ; /* ignore size */ d->type = devno(GBIT16(p), 1); p += BIT16SZ; d->dev = GBIT32(p); p += BIT32SZ; d->qid.type = GBIT8(p); p += BIT8SZ; d->qid.vers = GBIT32(p); p += BIT32SZ; d->qid.path = GBIT64(p); p += BIT64SZ; d->mode = GBIT32(p); p += BIT32SZ; d->atime = GBIT32(p); p += BIT32SZ; d->mtime = GBIT32(p); p += BIT32SZ; d->length = GBIT64(p); return len; } static char* dirname(uchar *p, int *n) { p += BIT16SZ+BIT16SZ+BIT32SZ+BIT8SZ+BIT32SZ+BIT64SZ + BIT32SZ+BIT32SZ+BIT32SZ+BIT64SZ; *n = GBIT16(p); return (char*)p+BIT16SZ; } static long dirsetname(char *name, int len, uchar *p, long n, long maxn) { char *oname; int olen; long nn; if(n == BIT16SZ) return BIT16SZ; oname = dirname(p, &olen); nn = n+len-olen; PBIT16(p, nn-BIT16SZ); if(nn > maxn) return BIT16SZ; if(len != olen) memmove(oname+len, oname+olen, p+n-(uchar*)(oname+olen)); PBIT16((uchar*)(oname-2), len); memmove(oname, name, len); return nn; } /* * Mountfix might have caused the fixed results of the directory read * to overflow the buffer. Catch the overflow in c->dirrock. */ static void mountrock(Chan *c, uchar *p, uchar **pe) { uchar *e, *r; int len, n; e = *pe; /* find last directory entry */ for(;;){ len = BIT16SZ+GBIT16(p); if(p+len >= e) break; p += len; } /* save it away */ qlock(&c->rockqlock); if(c->nrock+len > c->mrock){ n = ROUND(c->nrock+len, 1024); r = smalloc(n); memmove(r, c->dirrock, c->nrock); free(c->dirrock); c->dirrock = r; c->mrock = n; } memmove(c->dirrock+c->nrock, p, len); c->nrock += len; qunlock(&c->rockqlock); /* drop it */ *pe = p; } /* * Satisfy a directory read with the results saved in c->dirrock. */ static int mountrockread(Chan *c, uchar *op, long n, long *nn) { long dirlen; uchar *rp, *erp, *ep, *p; /* common case */ if(c->nrock == 0) return 0; /* copy out what we can */ qlock(&c->rockqlock); rp = c->dirrock; erp = rp+c->nrock; p = op; ep = p+n; while(rp+BIT16SZ <= erp){ dirlen = BIT16SZ+GBIT16(rp); if(p+dirlen > ep) break; memmove(p, rp, dirlen); p += dirlen; rp += dirlen; } if(p == op){ qunlock(&c->rockqlock); return 0; } /* shift the rest */ if(rp != erp) memmove(c->dirrock, rp, erp-rp); c->nrock = erp - rp; *nn = p - op; qunlock(&c->rockqlock); return 1; } static void mountrewind(Chan *c) { c->nrock = 0; } /* * Rewrite the results of a directory read to reflect current * name space bindings and mounts. Specifically, replace * directory entries for bind and mount points with the results * of statting what is mounted there. Except leave the old names. */ static long mountfix(Chan *c, uchar *op, long n, long maxn) { char *name; int nbuf, nname; Chan *nc; Mhead *mh; Mount *m; uchar *p; int dirlen, rest; long l; uchar *buf, *e; Dir d; p = op; buf = nil; nbuf = 0; for(e=&p[n]; p+BIT16SZ<e; p+=dirlen){ dirlen = dirfixed(p, e, &d); if(dirlen < 0) break; nc = nil; mh = nil; if(findmount(&nc, &mh, d.type, d.dev, d.qid)){ /* * If it's a union directory and the original is * in the union, don't rewrite anything. */ rlock(&mh->lock); for(m = mh->mount; m != nil; m = m->next){ if(eqchantdqid(m->to, d.type, d.dev, d.qid, 1)){ runlock(&mh->lock); goto Norewrite; } } runlock(&mh->lock); if(waserror()) goto Norewrite; name = dirname(p, &nname); if(buf == nil){ nbuf = 4096; buf = smalloc(nbuf); } l = devtab[nc->type]->stat(nc, buf, nbuf); if(l < BIT16SZ) error(Eshortstat); rest = BIT16SZ + GBIT16(buf) + nname; if(rest > nbuf){ free(buf); nbuf = rest; buf = smalloc(nbuf); l = devtab[nc->type]->stat(nc, buf, nbuf); } l = dirsetname(name, nname, buf, l, nbuf); if(l <= BIT16SZ) error(Eshortstat); poperror(); /* * Shift data in buffer to accomodate new entry, * possibly overflowing into rock. */ rest = e - (p+dirlen); if(l > dirlen){ while(p+l+rest > op+maxn){ mountrock(c, p, &e); if(e == p){ dirlen = 0; goto Norewrite; } rest = e - (p+dirlen); } } if(l != dirlen){ memmove(p+l, p+dirlen, rest); dirlen = l; e = p+dirlen+rest; } /* * Rewrite directory entry. */ memmove(p, buf, l); Norewrite: cclose(nc); putmhead(mh); } } if(buf != nil) free(buf); if(p != e) error("oops in rockfix"); return e-op; } static long read(int fd, uchar *p, long n, vlong *offp) { long nn, nnn; Chan *c; vlong off; validaddr((uintptr)p, n, 1); c = fdtochan(fd, OREAD, 1, 1); if(waserror()){ cclose(c); nexterror(); } /* * The offset is passed through on directories, normally. * Sysseek complains, but pread is used by servers like exportfs, * that shouldn't need to worry about this issue. * * Notice that c->devoffset is the offset that c's dev is seeing. * The number of bytes read on this fd (c->offset) may be different * due to rewritings in rockfix. */ if(offp == nil) /* use and maintain channel's offset */ off = c->offset; else off = *offp; if(off < 0) error(Enegoff); if(off == 0){ /* rewind to the beginning of the directory */ if(offp == nil || (c->qid.type & QTDIR)){ c->offset = 0; c->devoffset = 0; } mountrewind(c); unionrewind(c); } if(c->qid.type & QTDIR){ if(mountrockread(c, p, n, &nn)){ /* do nothing: mountrockread filled buffer */ }else if(c->umh != nil) nn = unionread(c, p, n); else{ if(off != c->offset) error(Edirseek); nn = devtab[c->type]->read(c, p, n, c->devoffset); } nnn = mountfix(c, p, nn, n); }else nnn = nn = devtab[c->type]->read(c, p, n, off); if(offp == nil || (c->qid.type & QTDIR)){ lock(c); c->devoffset += nn; c->offset += nnn; unlock(c); } poperror(); cclose(c); return nnn; } uintptr sys_read(va_list list) { int fd; void *buf; long len; fd = va_arg(list, int); buf = va_arg(list, void*); len = va_arg(list, long); return (uintptr)read(fd, buf, len, nil); } uintptr syspread(va_list list) { int fd; void *buf; long len; vlong off, *offp; fd = va_arg(list, int); buf = va_arg(list, void*); len = va_arg(list, long); off = va_arg(list, vlong); if(off != ~0ULL) offp = &off; else offp = nil; return (uintptr)read(fd, buf, len, offp); } static long write(int fd, void *buf, long len, vlong *offp) { Chan *c; long m, n; vlong off; validaddr((uintptr)buf, len, 0); n = 0; c = fdtochan(fd, OWRITE, 1, 1); if(waserror()) { if(offp == nil){ lock(c); c->offset -= n; unlock(c); } cclose(c); nexterror(); } if(c->qid.type & QTDIR) error(Eisdir); n = len; if(offp == nil){ /* use and maintain channel's offset */ lock(c); off = c->offset; c->offset += n; unlock(c); }else off = *offp; if(off < 0) error(Enegoff); m = devtab[c->type]->write(c, buf, n, off); if(offp == nil && m < n){ lock(c); c->offset -= n - m; unlock(c); } poperror(); cclose(c); return m; } uintptr sys_write(va_list list) { int fd; void *buf; long len; fd = va_arg(list, int); buf = va_arg(list, void*); len = va_arg(list, long); return (uintptr)write(fd, buf, len, nil); } uintptr syspwrite(va_list list) { int fd; void *buf; long len; vlong off, *offp; fd = va_arg(list, int); buf = va_arg(list, void*); len = va_arg(list, long); off = va_arg(list, vlong); if(off != ~0ULL) offp = &off; else offp = nil; return (uintptr)write(fd, buf, len, offp); } static vlong sseek(int fd, vlong o, int type) { Dir *d; Chan *c; vlong off; c = fdtochan(fd, -1, 1, 1); if(waserror()){ cclose(c); nexterror(); } if(devtab[c->type]->dc == L'|') error(Eisstream); off = 0; switch(type){ case 0: off = o; if((c->qid.type & QTDIR) && off != 0) error(Eisdir); if(off < 0) error(Enegoff); c->offset = off; break; case 1: if(c->qid.type & QTDIR) error(Eisdir); lock(c); /* lock for read/write update */ off = o + c->offset; if(off < 0){ unlock(c); error(Enegoff); } c->offset = off; unlock(c); break; case 2: if(c->qid.type & QTDIR) error(Eisdir); d = dirchanstat(c); off = d->length + o; free(d); if(off < 0) error(Enegoff); c->offset = off; break; default: error(Ebadarg); } c->uri = 0; c->dri = 0; cclose(c); poperror(); return off; } uintptr sysseek(va_list list) { int fd, t; vlong n, *v; v = va_arg(list, vlong*); evenaddr((uintptr)v); validaddr((uintptr)v, sizeof(vlong), 1); fd = va_arg(list, int); n = va_arg(list, vlong); t = va_arg(list, int); *v = sseek(fd, n, t); return 0; } uintptr sysoseek(va_list list) { int fd, t; long n; fd = va_arg(list, int); n = va_arg(list, long); t = va_arg(list, int); return (uintptr)sseek(fd, n, t); } void validstat(uchar *s, int n) { int m; char buf[64]; if(statcheck(s, n) < 0) error(Ebadstat); /* verify that name entry is acceptable */ s += STATFIXLEN - 4*BIT16SZ; /* location of first string */ /* * s now points at count for first string. * if it's too long, let the server decide; this is * only for his protection anyway. otherwise * we'd have to allocate and waserror. */ m = GBIT16(s); s += BIT16SZ; if(m+1 > sizeof buf) return; memmove(buf, s, m); buf[m] = '\0'; /* name could be '/' */ if(strcmp(buf, "/") != 0) validname(buf, 0); } static char* pathlast(Path *p) { char *s; if(p == nil) return nil; if(p->len == 0) return nil; s = strrchr(p->s, '/'); if(s != nil) return s+1; return p->s; } uintptr sysfstat(va_list list) { char *name; uchar *s; Chan *c; int fd; uint l, r; fd = va_arg(list, int); s = va_arg(list, uchar*); l = va_arg(list, uint); validaddr((uintptr)s, l, 1); c = fdtochan(fd, -1, 0, 1); if(waserror()) { cclose(c); nexterror(); } r = devtab[c->type]->stat(c, s, l); if((name = pathlast(c->path)) != nil) r = dirsetname(name, strlen(name), s, r, l); poperror(); cclose(c); return r; } uintptr sysstat(va_list list) { char *name; uchar *s; Chan *c; uint l, r; name = va_arg(list, char*); s = va_arg(list, uchar*); l = va_arg(list, uint); validaddr((uintptr)s, l, 1); validaddr((uintptr)name, 1, 0); c = namec(name, Aaccess, 0, 0); if(waserror()){ cclose(c); nexterror(); } r = devtab[c->type]->stat(c, s, l); if((name = pathlast(c->path)) != nil) r = dirsetname(name, strlen(name), s, r, l); poperror(); cclose(c); return r; } uintptr syschdir(va_list list) { Chan *c; char *name; name = va_arg(list, char*); validaddr((uintptr)name, 1, 0); c = namec(name, Atodir, 0, 0); cclose(up->dot); up->dot = c; return 0; } static int bindmount(int ismount, int fd, int afd, char* arg0, char* arg1, int flag, char* spec) { int ret; Chan *c0, *c1, *ac, *bc; if((flag&~MMASK) || (flag&MORDER)==(MBEFORE|MAFTER)) error(Ebadarg); if(ismount){ validaddr((uintptr)spec, 1, 0); spec = validnamedup(spec, 1); if(waserror()){ free(spec); nexterror(); } if(!canmount(up->pgrp)) error(Enoattach); ac = nil; bc = fdtochan(fd, ORDWR, 0, 1); if(waserror()) { if(ac != nil) cclose(ac); cclose(bc); nexterror(); } if(afd >= 0) ac = fdtochan(afd, ORDWR, 0, 1); c0 = mntattach(bc, ac, spec, flag&MCACHE); poperror(); /* ac bc */ if(ac != nil) cclose(ac); cclose(bc); }else{ spec = nil; validaddr((uintptr)arg0, 1, 0); c0 = namec(arg0, Abind, 0, 0); } if(waserror()){ cclose(c0); nexterror(); } validaddr((uintptr)arg1, 1, 0); c1 = namec(arg1, Amount, 0, 0); if(waserror()){ cclose(c1); nexterror(); } ret = cmount(c0, c1, flag, spec); poperror(); cclose(c1); poperror(); cclose(c0); if(ismount){ fdclose(fd, 0); poperror(); free(spec); } return ret; } uintptr sysbind(va_list list) { char *arg0, *arg1; int flag; arg0 = va_arg(list, char*); arg1 = va_arg(list, char*); flag = va_arg(list, int); return (uintptr)bindmount(0, -1, -1, arg0, arg1, flag, nil); } uintptr sysmount(va_list list) { char *arg1, *spec; int flag; int fd, afd; fd = va_arg(list, int); afd = va_arg(list, int); arg1 = va_arg(list, char*); flag = va_arg(list, int); spec = va_arg(list, char*); return (uintptr)bindmount(1, fd, afd, nil, arg1, flag, spec); } uintptr sys_mount(va_list list) { char *arg1, *spec; int flag; int fd; fd = va_arg(list, int); arg1 = va_arg(list, char*); flag = va_arg(list, int); spec = va_arg(list, char*); return (uintptr)bindmount(1, fd, -1, nil, arg1, flag, spec); } uintptr sysunmount(va_list list) { Chan *cmount, *cmounted; char *name, *old; name = va_arg(list, char*); old = va_arg(list, char*); cmounted = nil; validaddr((uintptr)old, 1, 0); cmount = namec(old, Amount, 0, 0); if(waserror()) { cclose(cmount); if(cmounted != nil) cclose(cmounted); nexterror(); } if(name != nil) { validaddr((uintptr)name, 1, 0); cmounted = namec(name, Aunmount, OREAD, 0); } cunmount(cmount, cmounted); poperror(); cclose(cmount); if(cmounted != nil) cclose(cmounted); return 0; } uintptr syscreate(va_list list) { int fd, mode, perm; char *name; Chan *c; name = va_arg(list, char*); mode = va_arg(list, int); perm = va_arg(list, int); openmode(mode&~OEXCL); /* error check only; OEXCL okay here */ validaddr((uintptr)name, 1, 0); c = namec(name, Acreate, mode, perm); if(waserror()) { cclose(c); nexterror(); } fd = newfd(c, mode); if(fd < 0) error(Enofd); poperror(); return (uintptr)fd; } uintptr sysremove(va_list list) { char *name; Chan *c; name = va_arg(list, char*); validaddr((uintptr)name, 1, 0); c = namec(name, Aremove, 0, 0); /* * Removing mount points is disallowed to avoid surprises * (which should be removed: the mount point or the mounted Chan?). */ if(c->ismtpt){ cclose(c); error(Eismtpt); } if(waserror()){ c->type = 0; /* see below */ cclose(c); nexterror(); } devtab[c->type]->remove(c); /* * Remove clunks the fid, but we need to recover the Chan * so fake it up. rootclose() is known to be a nop. */ c->type = 0; poperror(); cclose(c); return 0; } static long wstat(Chan *c, uchar *d, int nd) { long l; int namelen; if(waserror()){ cclose(c); nexterror(); } if(c->ismtpt){ /* * Renaming mount points is disallowed to avoid surprises * (which should be renamed? the mount point or the mounted Chan?). */ dirname(d, &namelen); if(namelen) nameerror(chanpath(c), Eismtpt); } l = devtab[c->type]->wstat(c, d, nd); poperror(); cclose(c); return l; } uintptr syswstat(va_list list) { char *name; uchar *s; Chan *c; uint l; name = va_arg(list, char*); s = va_arg(list, uchar*); l = va_arg(list, uint); validaddr((uintptr)s, l, 0); validstat(s, l); validaddr((uintptr)name, 1, 0); c = namec(name, Aaccess, 0, 0); return (uintptr)wstat(c, s, l); } uintptr sysfwstat(va_list list) { uchar *s; Chan *c; uint l; int fd; fd = va_arg(list, int); s = va_arg(list, uchar*); l = va_arg(list, uint); validaddr((uintptr)s, l, 0); validstat(s, l); c = fdtochan(fd, -1, 1, 1); return (uintptr)wstat(c, s, l); } static void packoldstat(uchar *buf, Dir *d) { uchar *p; ulong q; /* lay down old stat buffer - grotty code but it's temporary */ p = buf; strncpy((char*)p, d->name, 28); p += 28; strncpy((char*)p, d->uid, 28); p += 28; strncpy((char*)p, d->gid, 28); p += 28; q = (ulong)d->qid.path & ~DMDIR; /* make sure doesn't accidentally look like directory */ if(d->qid.type & QTDIR) /* this is the real test of a new directory */ q |= DMDIR; PBIT32(p, q); p += BIT32SZ; PBIT32(p, d->qid.vers); p += BIT32SZ; PBIT32(p, d->mode); p += BIT32SZ; PBIT32(p, d->atime); p += BIT32SZ; PBIT32(p, d->mtime); p += BIT32SZ; PBIT64(p, d->length); p += BIT64SZ; PBIT16(p, d->type); p += BIT16SZ; PBIT16(p, d->dev); } uintptr sys_stat(va_list list) { char *name; uchar *s; Chan *c; Dir *d; name = va_arg(list, char*); s = va_arg(list, uchar*); validaddr((uintptr)s, 116, 1); validaddr((uintptr)name, 1, 0); c = namec(name, Aaccess, 0, 0); if(waserror()){ cclose(c); nexterror(); } d = dirchanstat(c); if(waserror()){ free(d); nexterror(); } if((name = pathlast(c->path)) != nil) d->name = name; packoldstat(s, d); poperror(); free(d); poperror(); cclose(c); return 0; } uintptr sys_fstat(va_list list) { char *name; uchar *s; Chan *c; Dir *d; int fd; fd = va_arg(list, int); s = va_arg(list, uchar*); validaddr((uintptr)s, 116, 1); c = fdtochan(fd, -1, 0, 1); if(waserror()){ cclose(c); nexterror(); } d = dirchanstat(c); if(waserror()){ free(d); nexterror(); } if((name = pathlast(c->path)) != nil) d->name = name; packoldstat(s, d); poperror(); free(d); poperror(); cclose(c); return 0; } uintptr sys_wstat(va_list) { error("old wstat system call - recompile"); return (uintptr)-1; } uintptr sys_fwstat(va_list) { error("old fwstat system call - recompile"); return (uintptr)-1; }