ref: c0cbe87b357a4464a7d10ab8f38a65c77ea3b629
dir: /os/port/sysfile.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" static int growfd(Fgrp *f, int fd) { int n; Chan **nfd, **ofd; if(fd < f->nfd) return 0; n = f->nfd+DELTAFD; if(n > MAXNFD) n = MAXNFD; if(fd >= n) return -1; nfd = malloc(n*sizeof(Chan*)); if(nfd == nil) return -1; ofd = f->fd; memmove(nfd, ofd, f->nfd*sizeof(Chan *)); f->fd = nfd; f->nfd = n; free(ofd); return 0; } int newfd(Chan *c) { int i; Fgrp *f = up->env->fgrp; lock(f); for(i=f->minfd; i<f->nfd; i++) if(f->fd[i] == 0) break; if(i >= f->nfd && growfd(f, i) < 0){ unlock(f); exhausted("file descriptors"); return -1; } f->minfd = i + 1; if(i > f->maxfd) f->maxfd = i; f->fd[i] = c; unlock(f); return i; } Chan* fdtochan(Fgrp *f, int fd, int mode, int chkmnt, int iref) { Chan *c; c = 0; lock(f); if(fd<0 || f->maxfd<fd || (c = f->fd[fd])==0) { 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; } long kchanio(void *vc, void *buf, int n, int mode) { int r; Chan *c; c = vc; if(waserror()) return -1; if(mode == OREAD) r = devtab[c->type]->read(c, buf, n, c->offset); else r = devtab[c->type]->write(c, buf, n, c->offset); lock(c); c->offset += r; unlock(c); poperror(); return r; } int openmode(ulong o) { if(o >= (OTRUNC|OCEXEC|ORCLOSE|OEXEC)) error(Ebadarg); o &= ~(OTRUNC|OCEXEC|ORCLOSE); if(o > OEXEC) error(Ebadarg); if(o == OEXEC) return OREAD; return o; } void fdclose(Fgrp *f, int fd) { int i; Chan *c; lock(f); c = f->fd[fd]; if(c == 0){ /* can happen for users with shared fd tables */ unlock(f); return; } f->fd[fd] = 0; if(fd == f->maxfd) for(i=fd; --i>=0 && f->fd[i]==0; ) f->maxfd = i; if(fd < f->minfd) f->minfd = fd; unlock(f); cclose(c); } int kchdir(char *path) { Chan *c; Pgrp *pg; if(waserror()) return -1; c = namec(path, Atodir, 0, 0); pg = up->env->pgrp; cclose(pg->dot); pg->dot = c; poperror(); return 0; } int kfgrpclose(Fgrp *f, int fd) { if(waserror()) return -1; /* * Take no reference on the chan because we don't really need the * data structure, and are calling fdtochan only for error checks. * fdclose takes care of processes racing through here. */ fdtochan(f, fd, -1, 0, 0); fdclose(f, fd); poperror(); return 0; } int kclose(int fd) { return kfgrpclose(up->env->fgrp, fd); } int kcreate(char *path, int mode, ulong perm) { int fd; Chan *c; if(waserror()) return -1; openmode(mode&~OEXCL); /* error check only; OEXCL okay here */ c = namec(path, Acreate, mode, perm); if(waserror()) { cclose(c); nexterror(); } fd = newfd(c); if(fd < 0) error(Enofd); poperror(); poperror(); return fd; } int kdup(int old, int new) { int fd; Chan *c, *oc; Fgrp *f = up->env->fgrp; if(waserror()) return -1; c = fdtochan(up->env->fgrp, old, -1, 0, 1); if(c->qid.type & QTAUTH) error(Eperm); fd = new; if(fd != -1){ lock(f); if(fd<0 || growfd(f, fd) < 0) { unlock(f); cclose(c); error(Ebadfd); } if(fd > f->maxfd) f->maxfd = fd; oc = f->fd[fd]; f->fd[fd] = c; unlock(f); if(oc) cclose(oc); }else{ if(waserror()) { cclose(c); nexterror(); } fd = newfd(c); if(fd < 0) error(Enofd); poperror(); } poperror(); return fd; } int kfstat(int fd, uchar *buf, int n) { Chan *c; if(waserror()) return -1; c = fdtochan(up->env->fgrp, fd, -1, 0, 1); if(waserror()) { cclose(c); nexterror(); } devtab[c->type]->stat(c, buf, n); poperror(); cclose(c); poperror(); return n; } char* kfd2path(int fd) { Chan *c; char *s; if(waserror()) return nil; c = fdtochan(up->env->fgrp, fd, -1, 0, 1); s = nil; if(c->name != nil){ s = malloc(c->name->len+1); if(s == nil){ cclose(c); error(Enomem); } memmove(s, c->name->s, c->name->len+1); cclose(c); } poperror(); return s; } int kfauth(int fd, char *aname) { Chan *c, *ac; if(waserror()) return -1; validname(aname, 1); c = fdtochan(up->env->fgrp, fd, ORDWR, 0, 1); if(waserror()){ cclose(c); nexterror(); } ac = mntauth(c, aname); /* at this point ac is responsible for keeping c alive */ poperror(); /* c */ cclose(c); if(waserror()){ cclose(ac); nexterror(); } fd = newfd(ac); if(fd < 0) error(Enofd); poperror(); /* ac */ poperror(); return fd; } int kfversion(int fd, uint msize, char *vers, uint arglen) { int m; Chan *c; if(waserror()) return -1; /* check there's a NUL in the version string */ if(arglen==0 || memchr(vers, 0, arglen)==0) error(Ebadarg); c = fdtochan(up->env->fgrp, fd, ORDWR, 0, 1); if(waserror()){ cclose(c); nexterror(); } m = mntversion(c, vers, msize, arglen); poperror(); cclose(c); poperror(); return m; } int kpipe(int fd[2]) { Dev *d; Fgrp *f; Chan *c[2]; static char *names[] = {"data", "data1"}; f = up->env->fgrp; d = devtab[devno('|', 0)]; c[0] = namec("#|", Atodir, 0, 0); c[1] = 0; fd[0] = -1; fd[1] = -1; if(waserror()) { if(c[0] != 0) cclose(c[0]); if(c[1] != 0) cclose(c[1]); if(fd[0] >= 0) f->fd[fd[0]]=0; if(fd[1] >= 0) f->fd[fd[1]]=0; return -1; } c[1] = cclone(c[0]); if(walk(&c[0], &names[0], 1, 1, nil) < 0) error(Egreg); if(walk(&c[1], &names[1], 1, 1, nil) < 0) error(Egreg); c[0] = d->open(c[0], ORDWR); c[1] = d->open(c[1], ORDWR); fd[0] = newfd(c[0]); if(fd[0] < 0) error(Enofd); fd[1] = newfd(c[1]); if(fd[1] < 0) error(Enofd); poperror(); return 0; } int kfwstat(int fd, uchar *buf, int n) { Chan *c; if(waserror()) return -1; validstat(buf, n); c = fdtochan(up->env->fgrp, fd, -1, 1, 1); if(waserror()) { cclose(c); nexterror(); } n = devtab[c->type]->wstat(c, buf, n); poperror(); cclose(c); poperror(); return n; } long bindmount(Chan *c, char *old, int flag, char *spec) { int ret; Chan *c1; if(flag>MMASK || (flag&MORDER) == (MBEFORE|MAFTER)) error(Ebadarg); c1 = namec(old, Amount, 0, 0); if(waserror()){ cclose(c1); nexterror(); } ret = cmount(c, c1, flag, spec); poperror(); cclose(c1); return ret; } int kbind(char *new, char *old, int flags) { long r; Chan *c0; if(waserror()) return -1; c0 = namec(new, Abind, 0, 0); if(waserror()) { cclose(c0); nexterror(); } r = bindmount(c0, old, flags, ""); poperror(); cclose(c0); poperror(); return r; } int kmount(int fd, int afd, char *old, int flags, char *spec) { long r; volatile struct { Chan *c; } c0; volatile struct { Chan *c; } bc; volatile struct { Chan *c; } ac; Mntparam mntparam; ac.c = nil; bc.c = nil; c0.c = nil; if(waserror()) { cclose(ac.c); cclose(bc.c); cclose(c0.c); return -1; } bc.c = fdtochan(up->env->fgrp, fd, ORDWR, 0, 1); if(afd >= 0) ac.c = fdtochan(up->env->fgrp, afd, ORDWR, 0, 1); mntparam.chan = bc.c; mntparam.authchan = ac.c; mntparam.spec = spec; mntparam.flags = flags; c0.c = devtab[devno('M', 0)]->attach((char*)&mntparam); r = bindmount(c0.c, old, flags, spec); poperror(); cclose(ac.c); cclose(bc.c); cclose(c0.c); return r; } int kunmount(char *old, char *new) { volatile struct { Chan *c; } cmount; volatile struct { Chan *c; } cmounted; cmount.c = nil; cmounted.c = nil; if(waserror()) { cclose(cmount.c); cclose(cmounted.c); return -1; } cmount.c = namec(new, Amount, 0, 0); if(old != nil && old[0] != '\0') { /* * This has to be namec(..., Aopen, ...) because * if arg[0] is something like /srv/cs or /fd/0, * opening it is the only way to get at the real * Chan underneath. */ cmounted.c = namec(old, Aopen, OREAD, 0); } cunmount(cmount.c, cmounted.c); poperror(); cclose(cmount.c); cclose(cmounted.c); return 0; } int kopen(char *path, int mode) { int fd; Chan *c; if(waserror()) return -1; openmode(mode); /* error check only */ c = namec(path, Aopen, mode, 0); if(waserror()){ cclose(c); nexterror(); } fd = newfd(c); if(fd < 0) error(Enofd); poperror(); poperror(); return fd; } long unionread(Chan *c, void *va, long n) { int i; long nr; Mhead *m; Mount *mount; qlock(&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 && !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); if(nr < 0) nr = 0; /* dev.c can return -1 */ c->umc->offset += nr; poperror(); } if(nr > 0) break; /* Advance to next element */ c->uri++; if(c->umc) { cclose(c->umc); c->umc = nil; } mount = mount->next; } runlock(&m->lock); qunlock(&c->umqlock); return nr; } static void unionrewind(Chan *c) { qlock(&c->umqlock); c->uri = 0; if(c->umc){ cclose(c->umc); c->umc = nil; } qunlock(&c->umqlock); } static long rread(int fd, void *va, long n, vlong *offp) { int dir; Chan *c; vlong off; if(waserror()) return -1; c = fdtochan(up->env->fgrp, fd, OREAD, 1, 1); if(waserror()) { cclose(c); nexterror(); } if(n < 0) error(Etoosmall); dir = c->qid.type & QTDIR; if(dir && c->umh) n = unionread(c, va, n); else{ if(offp == nil){ lock(c); /* lock for vlong assignment */ off = c->offset; unlock(c); }else off = *offp; if(off < 0) error(Enegoff); if(off == 0){ if(offp == nil){ lock(c); c->offset = 0; c->dri = 0; unlock(c); } unionrewind(c); } n = devtab[c->type]->read(c, va, n, off); lock(c); c->offset += n; unlock(c); } poperror(); cclose(c); poperror(); return n; } long kread(int fd, void *va, long n) { return rread(fd, va, n, nil); } long kpread(int fd, void *va, long n, vlong off) { return rread(fd, va, n, &off); } int kremove(char *path) { Chan *c; if(waserror()) return -1; c = namec(path, Aremove, 0, 0); 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); poperror(); return 0; } vlong kseek(int fd, vlong off, int whence) { Dir *dir; Chan *c; if(waserror()) return -1; c = fdtochan(up->env->fgrp, fd, -1, 1, 1); if(waserror()) { cclose(c); nexterror(); } if(devtab[c->type]->dc == '|') error(Eisstream); switch(whence) { case 0: if(c->qid.type & QTDIR){ if(off != 0) error(Eisdir); unionrewind(c); }else if(off < 0) error(Enegoff); lock(c); /* lock for vlong assignment */ c->offset = off; unlock(c); break; case 1: if(c->qid.type & QTDIR) error(Eisdir); lock(c); /* lock for read/write update */ off += c->offset; if(off < 0){ unlock(c); error(Enegoff); } c->offset = off; unlock(c); break; case 2: if(c->qid.type & QTDIR) error(Eisdir); dir = chandirstat(c); if(dir == nil) error("internal error: stat error in seek"); off += dir->length; free(dir); if(off < 0) error(Enegoff); lock(c); /* lock for read/write update */ c->offset = off; unlock(c); break; default: error(Ebadarg); break; } poperror(); c->dri = 0; cclose(c); poperror(); return off; } 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); } int kstat(char *path, uchar *buf, int n) { Chan *c; if(waserror()) return -1; c = namec(path, Aaccess, 0, 0); if(waserror()){ cclose(c); nexterror(); } devtab[c->type]->stat(c, buf, n); poperror(); cclose(c); poperror(); return 0; } static long rwrite(int fd, void *va, long n, vlong *offp) { Chan *c; vlong off; long m; if(waserror()) return -1; c = fdtochan(up->env->fgrp, fd, OWRITE, 1, 1); if(waserror()) { cclose(c); nexterror(); } if(c->qid.type & QTDIR) error(Eisdir); if(n < 0) error(Etoosmall); if(offp == nil){ lock(c); off = c->offset; c->offset += n; unlock(c); }else off = *offp; if(waserror()){ if(offp == nil){ lock(c); c->offset -= n; unlock(c); } nexterror(); } if(off < 0) error(Enegoff); m = devtab[c->type]->write(c, va, n, off); poperror(); if(offp == nil && m < n){ lock(c); c->offset -= n - m; unlock(c); } poperror(); cclose(c); poperror(); return n; } long kwrite(int fd, void *va, long n) { return rwrite(fd, va, n, nil); } long kpwrite(int fd, void *va, long n, vlong off) { return rwrite(fd, va, n, &off); } int kwstat(char *path, uchar *buf, int n) { Chan *c; if(waserror()) return -1; validstat(buf, n); c = namec(path, Aaccess, 0, 0); if(waserror()){ cclose(c); nexterror(); } n = devtab[c->type]->wstat(c, buf, n); poperror(); cclose(c); poperror(); return n; } enum { DIRSIZE = STATFIXLEN + 32 * 4, DIRREADLIM = 2048, /* should handle the largest reasonable directory entry */ }; Dir* chandirstat(Chan *c) { Dir *d; uchar *buf; int n, nd, i; nd = DIRSIZE; for(i=0; i<2; i++){ /* should work by the second try */ d = smalloc(sizeof(Dir) + nd); buf = (uchar*)&d[1]; if(waserror()){ free(d); return nil; } n = devtab[c->type]->stat(c, buf, nd); poperror(); if(n < BIT16SZ){ free(d); return nil; } nd = GBIT16((uchar*)buf) + BIT16SZ; /* size needed to store whole stat buffer including count */ if(nd <= n){ convM2D(buf, n, d, (char*)&d[1]); return d; } /* else sizeof(Dir)+nd is plenty */ free(d); } return nil; } Dir* kdirstat(char *name) { Chan *c; Dir *d; if(waserror()) return nil; c = namec(name, Aaccess, 0, 0); if(waserror()){ cclose(c); nexterror(); } d = chandirstat(c); poperror(); cclose(c); poperror(); return d; } Dir* kdirfstat(int fd) { Chan *c; Dir *d; if(waserror()) return nil; c = fdtochan(up->env->fgrp, fd, -1, 0, 1); if(waserror()) { cclose(c); nexterror(); } d = chandirstat(c); poperror(); cclose(c); poperror(); return d; } int kdirwstat(char *name, Dir *dir) { uchar *buf; int r; r = sizeD2M(dir); buf = smalloc(r); convD2M(dir, buf, r); r = kwstat(name, buf, r); free(buf); return r < 0? r: 0; } int kdirfwstat(int fd, Dir *dir) { uchar *buf; int r; r = sizeD2M(dir); buf = smalloc(r); convD2M(dir, buf, r); r = kfwstat(fd, buf, r); free(buf); return r < 0? r: 0; } static long dirpackage(uchar *buf, long ts, Dir **d) { char *s; long ss, i, n, nn, m; *d = nil; if(ts <= 0) return ts; /* * first find number of all stats, check they look like stats, & size all associated strings */ ss = 0; n = 0; for(i = 0; i < ts; i += m){ m = BIT16SZ + GBIT16(&buf[i]); if(statcheck(&buf[i], m) < 0) break; ss += m; n++; } if(i != ts) error("bad directory format"); *d = malloc(n * sizeof(Dir) + ss); if(*d == nil) error(Enomem); /* * then convert all buffers */ s = (char*)*d + n * sizeof(Dir); nn = 0; for(i = 0; i < ts; i += m){ m = BIT16SZ + GBIT16((uchar*)&buf[i]); if(nn >= n || convM2D(&buf[i], m, *d + nn, s) != m){ free(*d); *d = nil; error("bad directory entry"); } nn++; s += m; } return nn; } long kdirread(int fd, Dir **d) { uchar *buf; long ts; *d = nil; if(waserror()) return -1; buf = malloc(DIRREADLIM); if(buf == nil) error(Enomem); if(waserror()){ free(buf); nexterror(); } ts = kread(fd, buf, DIRREADLIM); if(ts >= 0) ts = dirpackage(buf, ts, d); poperror(); free(buf); poperror(); return ts; } int kiounit(int fd) { Chan *c; int n; c = fdtochan(up->env->fgrp, fd, -1, 0, 1); if(waserror()){ cclose(c); return 0; /* n.b. */ } n = c->iounit; poperror(); cclose(c); return n; }