ref: df03eca7e7cbfadf1cf8c8c5a94390eaa5013a8b
dir: /emu/port/devfs-posix.c/
/* * Unix file system interface */ #define _LARGEFILE64_SOURCE 1 #define _FILE_OFFSET_BITS 64 #include "dat.h" #include "fns.h" #include "error.h" #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <sys/socket.h> #include <sys/un.h> #include <utime.h> #include <dirent.h> #include <stdio.h> #define __EXTENSIONS__ #undef getwd #include <unistd.h> #include <pwd.h> #include <grp.h> typedef struct Fsinfo Fsinfo; struct Fsinfo { int uid; int gid; int mode; /* Unix mode */ DIR* dir; /* open directory */ struct dirent* de; /* directory reading */ int fd; /* open files */ ulong offset; /* offset when reading directory */ int eod; /* end of directory */ int issocket; QLock oq; /* mutex for offset */ char* spec; Cname* name; /* Unix's name for file */ Qid rootqid; /* Plan 9's qid for Inferno's root */ }; #define FS(c) ((Fsinfo*)(c)->aux) enum { IDSHIFT = 8, NID = 1 << IDSHIFT, IDMASK = NID - 1, MAXPATH = 1024 /* TO DO: eliminate this */ }; typedef struct User User; struct User { int id; /* might be user or group ID */ int gid; /* if it's a user not a group, the group ID (only for setid) */ char* name; int nmem; int* mem; /* member array, if nmem != 0 */ User* next; }; char rootdir[MAXROOT] = ROOT; static User* uidmap[NID]; static User* gidmap[NID]; static QLock idl; static User* name2user(User**, char*, User* (*get)(char*)); static User* id2user(User**, int, User* (*get)(int)); static User* newuid(int); static User* newgid(int); static User* newuname(char*); static User* newgname(char*); static Qid fsqid(struct stat *); static void fspath(Cname*, char*, char*); static int fsdirconv(Chan*, char*, char*, struct stat*, uchar*, int, int); static Cname* fswalkpath(Cname*, char*, int); static char* fslastelem(Cname*); static int ingroup(int id, int gid); static void fsperm(Chan*, int); static long fsdirread(Chan*, uchar*, int, vlong); static int fsomode(int); static void fsremove(Chan*); static vlong osdisksize(int); /* defined by including file */ /* * make invalid symbolic links visible; less confusing, and at least you can then delete them. */ static int xstat(char *f, struct stat *sb) { if(stat(f, sb) >= 0) return 0; /* could possibly generate ->name as rob once suggested */ return lstat(f, sb); } static void fsfree(Chan *c) { cnameclose(FS(c)->name); free(FS(c)); } Chan* fsattach(char *spec) { Chan *c; struct stat st; static int devno; static Lock l; if(!emptystr(spec) && strcmp(spec, "*") != 0) error(Ebadspec); if(stat(rootdir, &st) < 0) oserror(); if(!S_ISDIR(st.st_mode)) error(Enotdir); c = devattach('U', spec); c->qid = fsqid(&st); c->aux = smalloc(sizeof(Fsinfo)); FS(c)->dir = nil; FS(c)->de = nil; FS(c)->fd = -1; FS(c)->issocket = 0; FS(c)->gid = st.st_gid; FS(c)->uid = st.st_uid; FS(c)->mode = st.st_mode; lock(&l); c->dev = devno++; unlock(&l); if(!emptystr(spec)){ FS(c)->spec = "/"; FS(c)->name = newcname(FS(c)->spec); }else FS(c)->name = newcname(rootdir); FS(c)->rootqid = c->qid; return c; } Walkqid* fswalk(Chan *c, Chan *nc, char **name, int nname) { int j; volatile int alloc; Walkqid *wq; struct stat st; char *n; Cname *next; Cname *volatile current; Qid rootqid; if(nname > 0) isdir(c); alloc = 0; current = nil; wq = smalloc(sizeof(Walkqid)+(nname-1)*sizeof(Qid)); if(waserror()){ if(alloc && wq->clone != nil) cclose(wq->clone); cnameclose(current); free(wq); return nil; } if(nc == nil){ nc = devclone(c); nc->type = 0; alloc = 1; } wq->clone = nc; rootqid = FS(c)->rootqid; current = FS(c)->name; if(current != nil) incref(¤t->r); for(j = 0; j < nname; j++){ if(!(nc->qid.type&QTDIR)){ if(j==0) error(Enotdir); break; } n = name[j]; if(strcmp(n, ".") != 0 && !(isdotdot(n) && nc->qid.path == rootqid.path)){ next = current; incref(&next->r); next = addelem(current, n); //print("** ufs walk '%s' -> %s [%s]\n", current->s, n, next->s); if(xstat(next->s, &st) < 0){ cnameclose(next); if(j == 0) error(Enonexist); strcpy(up->env->errstr, Enonexist); break; } nc->qid = fsqid(&st); cnameclose(current); current = next; } wq->qid[wq->nqid++] = nc->qid; } poperror(); if(wq->nqid < nname){ cnameclose(current); if(alloc) cclose(wq->clone); wq->clone = nil; }else if(wq->clone){ nc->aux = smalloc(sizeof(Fsinfo)); nc->type = c->type; if(nname > 0) { FS(nc)->gid = st.st_gid; FS(nc)->uid = st.st_uid; FS(nc)->mode = st.st_mode; FS(nc)->issocket = S_ISSOCK(st.st_mode); } else { FS(nc)->gid = FS(c)->gid; FS(nc)->uid = FS(c)->uid; FS(nc)->mode = FS(c)->mode; FS(nc)->issocket = FS(c)->issocket; } FS(nc)->name = current; FS(nc)->spec = FS(c)->spec; FS(nc)->rootqid = rootqid; FS(nc)->fd = -1; FS(nc)->dir = nil; FS(nc)->de = nil; } return wq; } static int fsstat(Chan *c, uchar *dp, int n) { struct stat st; char *p; if(FS(c)->fd >= 0){ if(fstat(FS(c)->fd, &st) < 0) oserror(); }else{ if(xstat(FS(c)->name->s, &st) < 0) oserror(); } p = fslastelem(FS(c)->name); if(*p == 0) p = "/"; qlock(&idl); n = fsdirconv(c, FS(c)->name->s, p, &st, dp, n, 0); qunlock(&idl); return n; } static int opensocket(char *path) { int fd; struct sockaddr_un su; memset(&su, 0, sizeof su); su.sun_family = AF_UNIX; if(strlen(path)+1 > sizeof su.sun_path) error("unix socket name too long"); strcpy(su.sun_path, path); if((fd = socket(AF_UNIX, SOCK_STREAM, 0)) < 0) return -1; if(connect(fd, (struct sockaddr*)&su, sizeof su) >= 0) return fd; close(fd); if((fd = socket(AF_UNIX, SOCK_DGRAM, 0)) < 0) return -1; if(connect(fd, (struct sockaddr*)&su, sizeof su) >= 0) return fd; close(fd); return -1; } static Chan* fsopen(Chan *c, int mode) { int m, isdir; m = mode & (OTRUNC|3); switch(m) { case 0: fsperm(c, 4); break; case 1: case 1|16: fsperm(c, 2); break; case 2: case 0|16: case 2|16: fsperm(c, 4); fsperm(c, 2); break; case 3: fsperm(c, 1); break; default: error(Ebadarg); } isdir = c->qid.type & QTDIR; if(isdir && mode != OREAD) error(Eperm); m = fsomode(m & 3); c->mode = openmode(mode); if(isdir) { FS(c)->dir = opendir(FS(c)->name->s); if(FS(c)->dir == nil) oserror(); FS(c)->eod = 0; } else { if(!FS(c)->issocket){ if(mode & OTRUNC) m |= O_TRUNC; FS(c)->fd = open(FS(c)->name->s, m, 0666); }else FS(c)->fd = opensocket(FS(c)->name->s); if(FS(c)->fd < 0) oserror(); } c->offset = 0; FS(c)->offset = 0; c->flag |= COPEN; return c; } static void fscreate(Chan *c, char *name, int mode, ulong perm) { int fd, m, o; struct stat st; Cname *n; fsperm(c, 2); m = fsomode(mode&3); openmode(mode); /* get the errors out of the way */ if(strcmp(name, ".") == 0 || strcmp(name, "..") == 0) error(Efilename); n = fswalkpath(FS(c)->name, name, 1); if(waserror()){ cnameclose(n); nexterror(); } if(perm & DMDIR) { if(m) error(Eperm); perm &= ~0777 | (FS(c)->mode & 0777); if(mkdir(n->s, perm) < 0) oserror(); fd = open(n->s, 0); if(fd < 0) oserror(); fchmod(fd, perm); fchown(fd, up->env->uid, FS(c)->gid); if(fstat(fd, &st) <0){ close(fd); oserror(); } close(fd); FS(c)->dir = opendir(n->s); if(FS(c)->dir == nil) oserror(); FS(c)->eod = 0; } else { o = (O_CREAT | O_EXCL) | (mode&3); if(mode & OTRUNC) o |= O_TRUNC; perm &= ~0666 | (FS(c)->mode & 0666); fd = open(n->s, o, perm); if(fd < 0) oserror(); fchmod(fd, perm); fchown(fd, up->env->uid, FS(c)->gid); if(fstat(fd, &st) < 0){ close(fd); oserror(); } FS(c)->fd = fd; } cnameclose(FS(c)->name); FS(c)->name = n; poperror(); c->qid = fsqid(&st); FS(c)->gid = st.st_gid; FS(c)->uid = st.st_uid; FS(c)->mode = st.st_mode; c->mode = openmode(mode); c->offset = 0; FS(c)->offset = 0; FS(c)->issocket = 0; c->flag |= COPEN; } static void fsclose(Chan *c) { if((c->flag & COPEN) != 0){ if(c->qid.type & QTDIR) closedir(FS(c)->dir); else close(FS(c)->fd); } if(c->flag & CRCLOSE) { if(!waserror()) { fsremove(c); poperror(); } return; } fsfree(c); } static long fsread(Chan *c, void *va, long n, vlong offset) { long r; if(c->qid.type & QTDIR){ qlock(&FS(c)->oq); if(waserror()) { qunlock(&FS(c)->oq); nexterror(); } r = fsdirread(c, va, n, offset); poperror(); qunlock(&FS(c)->oq); }else{ if(!FS(c)->issocket){ r = pread(FS(c)->fd, va, n, offset); if(r >= 0) return r; if(errno != ESPIPE && errno != EPIPE) oserror(); } r = read(FS(c)->fd, va, n); if(r < 0) oserror(); } return r; } static long fswrite(Chan *c, void *va, long n, vlong offset) { long r; if(!FS(c)->issocket){ r = pwrite(FS(c)->fd, va, n, offset); if(r >= 0) return r; if(errno != ESPIPE && errno != EPIPE) oserror(); } r = write(FS(c)->fd, va, n); if(r < 0) oserror(); return r; } static void fswchk(Cname *c) { struct stat st; if(stat(c->s, &st) < 0) oserror(); if(st.st_uid == up->env->uid) st.st_mode >>= 6; else if(st.st_gid == up->env->gid || ingroup(up->env->uid, st.st_gid)) st.st_mode >>= 3; if(st.st_mode & S_IWOTH) return; error(Eperm); } static void fsremove(Chan *c) { int n; Cname *volatile dir; if(waserror()){ fsfree(c); nexterror(); } dir = fswalkpath(FS(c)->name, "..", 1); if(waserror()){ cnameclose(dir); nexterror(); } fswchk(dir); cnameclose(dir); poperror(); if(c->qid.type & QTDIR) n = rmdir(FS(c)->name->s); else n = remove(FS(c)->name->s); if(n < 0) oserror(); poperror(); fsfree(c); } static int fswstat(Chan *c, uchar *buf, int nb) { Dir *d; User *p; Cname *volatile ph; struct stat st; struct utimbuf utbuf; int tsync; if(FS(c)->fd >= 0){ if(fstat(FS(c)->fd, &st) < 0) oserror(); }else{ if(stat(FS(c)->name->s, &st) < 0) oserror(); } d = malloc(sizeof(*d)+nb); if(d == nil) error(Enomem); if(waserror()){ free(d); nexterror(); } tsync = 1; nb = convM2D(buf, nb, d, (char*)&d[1]); if(nb == 0) error(Eshortstat); if(!emptystr(d->name) && strcmp(d->name, fslastelem(FS(c)->name)) != 0) { tsync = 0; validname(d->name, 0); ph = fswalkpath(FS(c)->name, "..", 1); if(waserror()){ cnameclose(ph); nexterror(); } fswchk(ph); ph = fswalkpath(ph, d->name, 0); if(rename(FS(c)->name->s, ph->s) < 0) oserror(); cnameclose(FS(c)->name); poperror(); FS(c)->name = ph; } if(d->mode != ~0 && (d->mode&0777) != (st.st_mode&0777)) { tsync = 0; if(up->env->uid != st.st_uid) error(Eowner); if(FS(c)->fd >= 0){ if(fchmod(FS(c)->fd, d->mode&0777) < 0) oserror(); }else{ if(chmod(FS(c)->name->s, d->mode&0777) < 0) oserror(); } FS(c)->mode &= ~0777; FS(c)->mode |= d->mode&0777; } if(d->atime != ~0 && d->atime != st.st_atime || d->mtime != ~0 && d->mtime != st.st_mtime) { tsync = 0; if(up->env->uid != st.st_uid) error(Eowner); if(d->mtime != ~0) utbuf.modtime = d->mtime; else utbuf.modtime = st.st_mtime; if(d->atime != ~0) utbuf.actime = d->atime; else utbuf.actime = st.st_atime; if(utime(FS(c)->name->s, &utbuf) < 0) /* TO DO: futimes isn't portable */ oserror(); } if(*d->gid){ tsync = 0; qlock(&idl); if(waserror()){ qunlock(&idl); nexterror(); } p = name2user(gidmap, d->gid, newgname); if(p == 0) error(Eunknown); if(p->id != st.st_gid) { if(up->env->uid != st.st_uid) error(Eowner); if(FS(c)->fd >= 0){ if(fchown(FS(c)->fd, st.st_uid, p->id) < 0) oserror(); }else{ if(chown(FS(c)->name->s, st.st_uid, p->id) < 0) oserror(); } FS(c)->gid = p->id; } poperror(); qunlock(&idl); } if(d->length != ~(uvlong)0){ tsync = 0; if(FS(c)->fd >= 0){ fsperm(c, 2); if(ftruncate(FS(c)->fd, d->length) < 0) oserror(); }else{ fswchk(FS(c)->name); if(truncate(FS(c)->name->s, d->length) < 0) oserror(); } } poperror(); free(d); if(tsync && FS(c)->fd >= 0 && fsync(FS(c)->fd) < 0) oserror(); return nb; } static Qid fsqid(struct stat *st) { Qid q; u16int dev; q.type = QTFILE; if(S_ISDIR(st->st_mode)) q.type = QTDIR; dev = (u16int)st->st_dev; if(dev & 0x8000){ static int aware = 1; if(aware==0){ aware = 1; fprint(2, "fs: fsqid: top-bit dev: %#4.4ux\n", dev); } dev ^= 0x8080; } q.path = (uvlong)dev<<48; q.path ^= st->st_ino; q.vers = st->st_mtime; return q; } static void fspath(Cname *c, char *name, char *path) { int n; if(c->len+strlen(name) >= MAXPATH) panic("fspath: name too long"); memmove(path, c->s, c->len); n = c->len; if(path[n-1] != '/') path[n++] = '/'; strcpy(path+n, name); if(isdotdot(name)) cleanname(path); /*print("->%s\n", path);*/ } static Cname * fswalkpath(Cname *c, char *name, int dup) { if(dup) c = newcname(c->s); c = addelem(c, name); if(isdotdot(name)) cleancname(c); return c; } static char * fslastelem(Cname *c) { char *p; p = c->s + c->len; while(p > c->s && p[-1] != '/') p--; return p; } static void fsperm(Chan *c, int mask) { int m; m = FS(c)->mode; /* print("fsperm: %o %o uuid %d ugid %d cuid %d cgid %d\n", m, mask, up->env->uid, up->env->gid, FS(c)->uid, FS(c)->gid); */ if(FS(c)->uid == up->env->uid) m >>= 6; else if(FS(c)->gid == up->env->gid || ingroup(up->env->uid, FS(c)->gid)) m >>= 3; m &= mask; if(m == 0) error(Eperm); } static int isdots(char *name) { return name[0] == '.' && (name[1] == '\0' || name[1] == '.' && name[2] == '\0'); } static int fsdirconv(Chan *c, char *path, char *name, struct stat *s, uchar *va, int nb, int indir) { Dir d; char uidbuf[NUMSIZE], gidbuf[NUMSIZE]; User *u; int fd; memset(&d, 0, sizeof(d)); d.name = name; u = id2user(uidmap, s->st_uid, newuid); if(u == nil){ snprint(uidbuf, sizeof(uidbuf), "#%lud", (long)s->st_uid); d.uid = uidbuf; }else d.uid = u->name; u = id2user(gidmap, s->st_gid, newgid); if(u == nil){ snprint(gidbuf, sizeof(gidbuf), "#%lud", (long)s->st_gid); d.gid = gidbuf; }else d.gid = u->name; d.muid = ""; d.qid = fsqid(s); d.mode = (d.qid.type<<24)|(s->st_mode&0777); d.atime = s->st_atime; d.mtime = s->st_mtime; d.length = s->st_size; if(d.mode&DMDIR) d.length = 0; else if(S_ISBLK(s->st_mode) && s->st_size == 0){ fd = open(path, O_RDONLY); if(fd >= 0){ d.length = osdisksize(fd); close(fd); } } d.type = 'U'; d.dev = c->dev; if(indir && sizeD2M(&d) > nb) return -1; /* directory reader needs to know it didn't fit */ return convD2M(&d, va, nb); } static long fsdirread(Chan *c, uchar *va, int count, vlong offset) { int i; long n, r; struct stat st; char path[MAXPATH], *ep; struct dirent *de; static uchar slop[8192]; i = 0; fspath(FS(c)->name, "", path); ep = path+strlen(path); if(FS(c)->offset != offset) { seekdir(FS(c)->dir, 0); FS(c)->de = nil; FS(c)->eod = 0; for(n=0; n<offset; ) { de = readdir(FS(c)->dir); if(de == 0) { /* EOF, so stash offset and return 0 */ FS(c)->offset = n; FS(c)->eod = 1; return 0; } if(de->d_ino==0 || de->d_name[0]==0 || isdots(de->d_name)) continue; strecpy(ep, path+sizeof(path), de->d_name); if(xstat(path, &st) < 0) { fprint(2, "dir: bad path %s\n", path); continue; } qlock(&idl); if(waserror()){ qunlock(&idl); nexterror(); } r = fsdirconv(c, path, de->d_name, &st, slop, sizeof(slop), 1); poperror(); qunlock(&idl); if(r <= 0) { FS(c)->offset = n; return 0; } n += r; } FS(c)->offset = offset; } if(FS(c)->eod) return 0; /* * Take idl on behalf of id2name. Stalling attach, which is a * rare operation, until the readdir completes is probably * preferable to adding lock round-trips. */ qlock(&idl); while(i < count){ de = FS(c)->de; FS(c)->de = nil; if(de == nil) de = readdir(FS(c)->dir); if(de == nil){ FS(c)->eod = 1; break; } if(de->d_ino==0 || de->d_name[0]==0 || isdots(de->d_name)) continue; strecpy(ep, path+sizeof(path), de->d_name); if(xstat(path, &st) < 0) { fprint(2, "dir: bad path %s\n", path); continue; } r = fsdirconv(c, path, de->d_name, &st, va+i, count-i, 1); if(r <= 0){ FS(c)->de = de; break; } i += r; FS(c)->offset += r; } qunlock(&idl); return i; } static int fsomode(int m) { if(m < 0 || m > 3) error(Ebadarg); return m == 3? 0: m; } void setid(char *name, int owner) { User *u; if(owner && !iseve()) return; kstrdup(&up->env->user, name); qlock(&idl); u = name2user(uidmap, name, newuname); if(u == nil){ qunlock(&idl); up->env->uid = -1; up->env->gid = -1; return; } up->env->uid = u->id; up->env->gid = u->gid; qunlock(&idl); } static User** hashuser(User** tab, int id) { int i; i = (id>>IDSHIFT) ^ id; return &tab[i & IDMASK]; } /* * the caller of the following functions must hold QLock idl. */ /* * we could keep separate maps of user and group names to Users to * speed this up, but the reverse lookup currently isn't common (ie, change group by wstat and setid) */ static User* name2user(User **tab, char *name, User* (*get)(char*)) { int i; User *u, **h; static User *prevu; static User **prevtab; if(prevu != nil && prevtab == tab && strcmp(name, prevu->name) == 0) return prevu; /* it's often the one we've just seen */ for(i=0; i<NID; i++) for(u = tab[i]; u != nil; u = u->next) if(strcmp(name, u->name) == 0) { prevtab = tab; prevu = u; return u; } u = get(name); if(u == nil) return nil; h = hashuser(tab, u->id); u->next = *h; *h = u; prevtab = tab; prevu = u; return u; } static void freeuser(User *u) { if(u != nil){ free(u->name); free(u->mem); free(u); } } static User* newuser(int id, int gid, char *name, int nmem) { User *u; u = malloc(sizeof(*u)); if(u == nil) return nil; u->name = strdup(name); if(u->name == nil){ free(u); return nil; } u->nmem = nmem; if(nmem){ u->mem = malloc(nmem*sizeof(*u->mem)); if(u->mem == nil){ free(u->name); free(u); return nil; } }else u->mem = nil; u->id = id; u->gid = gid; u->next = nil; return u; } static User* newuname(char *name) { struct passwd *p; p = getpwnam(name); if(p == nil) return nil; return newuser(p->pw_uid, p->pw_gid, name, 0); } static User* newuid(int id) { struct passwd *p; p = getpwuid(id); if(p == nil) return nil; return newuser(p->pw_uid, p->pw_gid, p->pw_name, 0); } static User* newgroup(struct group *g) { User *u, *gm; int n, o; if(g == nil) return nil; for(n=0; g->gr_mem[n] != nil; n++) ; u = newuser(g->gr_gid, g->gr_gid, g->gr_name, n); if(u == nil) return nil; o = 0; for(n=0; g->gr_mem[n] != nil; n++){ gm = name2user(uidmap, g->gr_mem[n], newuname); if(gm != nil) u->mem[o++] = gm->id; /* ignore names that don't map to IDs */ } u->nmem = o; return u; } static User* newgid(int id) { return newgroup(getgrgid(id)); } static User* newgname(char *name) { return newgroup(getgrnam(name)); } static User* id2user(User **tab, int id, User* (*get)(int)) { User *u, **h; h = hashuser(tab, id); for(u = *h; u != nil; u = u->next) if(u->id == id) return u; u = get(id); if(u == nil) return nil; u->next = *h; *h = u; return u; } static int ingroup(int id, int gid) { int i; User *g; g = id2user(gidmap, gid, newgid); if(g == nil || g->mem == nil) return 0; for(i = 0; i < g->nmem; i++) if(g->mem[i] == id) return 1; return 0; } Dev fsdevtab = { 'U', "fs", devinit, fsattach, fswalk, fsstat, fsopen, fscreate, fsclose, fsread, devbread, fswrite, devbwrite, fsremove, fswstat };