#include #include #include #include enum{ LEN = 8*1024, HUNKS = 128, /* * types of destination file sytems */ Kfs = 0, Fs, Archive, }; typedef struct File File; struct File{ char *new; char *elem; char *old; char *uid; char *gid; ulong mode; }; void arch(Dir*); void copy(Dir*); int copyfile(File*, Dir*, int); void* emalloc(ulong); void error(char *, ...); void freefile(File*); File* getfile(File*); char* getmode(char*, ulong*); char* getname(char*, char**); char* getpath(char*); void kfscmd(char *); void mkdir(Dir*); int mkfile(File*); void mkfs(File*, int); char* mkpath(char*, char*); void mktree(File*, int); void mountkfs(char*); void printfile(File*); void setnames(File*); void setusers(void); void skipdir(void); char* strdup(char*); int uptodate(Dir*, char*); void usage(void); void warn(char *, ...); Biobuf *b; Biobufhdr bout; /* stdout when writing archive */ uchar boutbuf[2*LEN]; char newfile[LEN]; char oldfile[LEN]; char *proto; char *cputype; char *users; char *oldroot; char *newroot; char *prog = "mkfs"; int lineno; char *buf; char *zbuf; int buflen = 1024-8; int indent; int verb; int modes; int ream; int debug; int xflag; int sfd; int fskind; /* Kfs, Fs, Archive */ int setuid; /* on Fs: set uid and gid? */ char *user; void main(int argc, char **argv) { File file; char *name; int i, errs; quotefmtinstall(); user = getuser(); name = ""; memset(&file, 0, sizeof file); file.new = ""; file.old = 0; oldroot = ""; newroot = "/n/kfs"; users = 0; fskind = Kfs; ARGBEGIN{ case 'a': if(fskind != Kfs) { fprint(2, "cannot use -a with -d\n"); usage(); } fskind = Archive; newroot = ""; Binits(&bout, 1, OWRITE, boutbuf, sizeof boutbuf); break; case 'd': if(fskind != Kfs) { fprint(2, "cannot use -d with -a\n"); usage(); } fskind = Fs; newroot = ARGF(); break; case 'D': debug = 1; break; case 'n': name = EARGF(usage()); break; case 'p': modes = 1; break; case 'r': ream = 1; break; case 's': oldroot = ARGF(); break; case 'u': users = ARGF(); break; case 'U': setuid = 1; break; case 'v': verb = 1; break; case 'x': xflag = 1; break; case 'z': buflen = atoi(ARGF())-8; break; default: usage(); }ARGEND if(!argc) usage(); buf = emalloc(buflen); zbuf = emalloc(buflen); memset(zbuf, 0, buflen); mountkfs(name); kfscmd("allow"); proto = "users"; setusers(); cputype = getenv("cputype"); if(cputype == 0) cputype = "68020"; errs = 0; for(i = 0; i < argc; i++){ proto = argv[i]; fprint(2, "processing %q\n", proto); b = Bopen(proto, OREAD); if(!b){ fprint(2, "%q: can't open %q: skipping\n", prog, proto); errs++; continue; } lineno = 0; indent = 0; mkfs(&file, -1); Bterm(b); } fprint(2, "file system made\n"); kfscmd("disallow"); kfscmd("sync"); if(errs) exits("skipped protos"); if(fskind == Archive){ Bprint(&bout, "end of archive\n"); Bterm(&bout); } exits(0); } void mkfs(File *me, int level) { File *child; int rec; child = getfile(me); if(!child) return; if((child->elem[0] == '+' || child->elem[0] == '*') && child->elem[1] == '\0'){ rec = child->elem[0] == '+'; free(child->new); child->new = strdup(me->new); setnames(child); mktree(child, rec); freefile(child); child = getfile(me); } while(child && indent > level){ if(mkfile(child)) mkfs(child, indent); freefile(child); child = getfile(me); } if(child){ freefile(child); Bseek(b, -Blinelen(b), 1); lineno--; } } void mktree(File *me, int rec) { File child; Dir *d; int i, n, fd; fd = open(oldfile, OREAD); if(fd < 0){ warn("can't open %q: %r", oldfile); return; } child = *me; while((n = dirread(fd, &d)) > 0){ for(i = 0; i < n; i++){ child.new = mkpath(me->new, d[i].name); if(me->old) child.old = mkpath(me->old, d[i].name); child.elem = d[i].name; setnames(&child); if(copyfile(&child, &d[i], 1) && rec) mktree(&child, rec); free(child.new); if(child.old) free(child.old); } } close(fd); } int mkfile(File *f) { Dir *dir; if((dir = dirstat(oldfile)) == nil){ warn("can't stat file %q: %r", oldfile); skipdir(); return 0; } return copyfile(f, dir, 0); } int copyfile(File *f, Dir *d, int permonly) { ulong mode; Dir nd; if(xflag){ Bprint(&bout, "%q\t%ld\t%lld\n", f->new, d->mtime, d->length); return (d->mode & DMDIR) != 0; } if(verb && (fskind == Archive || ream)) fprint(2, "%q\n", f->new); d->name = f->elem; if(d->type != 'M'){ d->uid = "sys"; d->gid = "sys"; mode = (d->mode >> 6) & 7; d->mode |= mode | (mode << 3); } if(strcmp(f->uid, "-") != 0) d->uid = f->uid; if(strcmp(f->gid, "-") != 0) d->gid = f->gid; if(fskind == Fs && !setuid){ d->uid = ""; d->gid = ""; } if(f->mode != ~0){ if(permonly) d->mode = (d->mode & ~0666) | (f->mode & 0666); else if((d->mode&DMDIR) != (f->mode&DMDIR)) warn("inconsistent mode for %q", f->new); else d->mode = f->mode; } if(!uptodate(d, newfile)){ if(verb && (fskind != Archive && ream == 0)) fprint(2, "%q\n", f->new); if(d->mode & DMDIR) mkdir(d); else copy(d); }else if(modes){ nulldir(&nd); nd.mode = d->mode; nd.gid = d->gid; nd.mtime = d->mtime; if(verb && (fskind != Archive && ream == 0)) fprint(2, "%q\n", f->new); if(dirwstat(newfile, &nd) < 0) warn("can't set modes for %q: %r", f->new); nulldir(&nd); nd.uid = d->uid; dirwstat(newfile, &nd); } return (d->mode & DMDIR) != 0; } /* * check if file to is up to date with * respect to the file represented by df */ int uptodate(Dir *df, char *to) { int ret; Dir *dt; if(fskind == Archive || ream || (dt = dirstat(to)) == nil) return 0; ret = dt->mtime >= df->mtime; free(dt); return ret; } void copy(Dir *d) { char cptmp[LEN], *p; int f, t, n, needwrite, nowarnyet = 1; vlong tot, len; Dir nd; f = open(oldfile, OREAD); if(f < 0){ warn("can't open %q: %r", oldfile); return; } t = -1; if(fskind == Archive) arch(d); else{ strcpy(cptmp, newfile); p = utfrrune(cptmp, L'/'); if(!p) error("internal temporary file error"); strcpy(p+1, "__mkfstmp"); t = create(cptmp, OWRITE, 0666); if(t < 0){ warn("can't create %q: %r", newfile); close(f); return; } } needwrite = 0; for(tot = 0; tot < d->length; tot += n){ len = d->length - tot; /* don't read beyond d->length */ if (len > buflen) len = buflen; n = read(f, buf, len); if(n <= 0) { if(n < 0 && nowarnyet) { warn("can't read %q: %r", oldfile); nowarnyet = 0; } /* * don't quit: pad to d->length (in pieces) to agree * with the length in the header, already emitted. */ memset(buf, 0, len); n = len; } if(fskind == Archive){ if(Bwrite(&bout, buf, n) != n) error("write error: %r"); }else if(memcmp(buf, zbuf, n) == 0){ if(seek(t, n, 1) < 0) error("can't write zeros to %q: %r", newfile); needwrite = 1; }else{ if(write(t, buf, n) < n) error("can't write %q: %r", newfile); needwrite = 0; } } close(f); if(needwrite){ if(seek(t, -1, 1) < 0 || write(t, zbuf, 1) != 1) error("can't write zero at end of %q: %r", newfile); } if(tot != d->length){ /* this should no longer happen */ warn("wrong number of bytes written to %q (was %lld should be %lld)\n", newfile, tot, d->length); if(fskind == Archive){ warn("seeking to proper position\n"); /* does no good if stdout is a pipe */ Bseek(&bout, d->length - tot, 1); } } if(fskind == Archive) return; remove(newfile); nulldir(&nd); nd.mode = d->mode; nd.gid = d->gid; nd.mtime = d->mtime; nd.name = d->name; if(dirfwstat(t, &nd) < 0) error("can't move tmp file to %q: %r", newfile); nulldir(&nd); nd.uid = d->uid; dirfwstat(t, &nd); close(t); } void mkdir(Dir *d) { Dir *d1; Dir nd; int fd; if(fskind == Archive){ arch(d); return; } fd = create(newfile, OREAD, d->mode); nulldir(&nd); nd.mode = d->mode; nd.gid = d->gid; nd.mtime = d->mtime; if(fd < 0){ if((d1 = dirstat(newfile)) == nil || !(d1->mode & DMDIR)){ free(d1); error("can't create %q", newfile); } free(d1); if(dirwstat(newfile, &nd) < 0) warn("can't set modes for %q: %r", newfile); nulldir(&nd); nd.uid = d->uid; dirwstat(newfile, &nd); return; } if(dirfwstat(fd, &nd) < 0) warn("can't set modes for %q: %r", newfile); nulldir(&nd); nd.uid = d->uid; dirfwstat(fd, &nd); close(fd); } void arch(Dir *d) { Bprint(&bout, "%q %luo %q %q %lud %lld\n", newfile, d->mode, d->uid, d->gid, d->mtime, d->length); } char * mkpath(char *prefix, char *elem) { char *p; int n; n = strlen(prefix) + strlen(elem) + 2; p = emalloc(n); sprint(p, "%s/%s", prefix, elem); return p; } char * strdup(char *s) { char *t; t = emalloc(strlen(s) + 1); return strcpy(t, s); } void setnames(File *f) { sprint(newfile, "%s%s", newroot, f->new); if(f->old){ if(f->old[0] == '/') sprint(oldfile, "%s%s", oldroot, f->old); else strcpy(oldfile, f->old); }else sprint(oldfile, "%s%s", oldroot, f->new); if(strlen(newfile) >= sizeof newfile || strlen(oldfile) >= sizeof oldfile) error("name overfile"); } void freefile(File *f) { if(f->old) free(f->old); if(f->new) free(f->new); free(f); } /* * skip all files in the proto that * could be in the current dir */ void skipdir(void) { char *p, c; int level; if(indent < 0 || b == nil) /* b is nil when copying adm/users */ return; level = indent; for(;;){ indent = 0; p = Brdline(b, '\n'); lineno++; if(!p){ indent = -1; return; } while((c = *p++) != '\n') if(c == ' ') indent++; else if(c == '\t') indent += 8; else break; if(indent <= level){ Bseek(b, -Blinelen(b), 1); lineno--; return; } } } File* getfile(File *old) { File *f; char *elem; char *p; int c; if(indent < 0) return 0; loop: indent = 0; p = Brdline(b, '\n'); lineno++; if(!p){ indent = -1; return 0; } while((c = *p++) != '\n') if(c == ' ') indent++; else if(c == '\t') indent += 8; else break; if(c == '\n' || c == '#') goto loop; p--; f = emalloc(sizeof *f); p = getname(p, &elem); if(debug) fprint(2, "getfile: %q root %q\n", elem, old->new); f->new = mkpath(old->new, elem); f->elem = utfrrune(f->new, L'/') + 1; p = getmode(p, &f->mode); p = getname(p, &f->uid); if(!*f->uid) f->uid = "-"; p = getname(p, &f->gid); if(!*f->gid) f->gid = "-"; f->old = getpath(p); if(f->old && strcmp(f->old, "-") == 0){ free(f->old); f->old = 0; } setnames(f); if(debug) printfile(f); return f; } char* getpath(char *p) { char *q, *new; int c, n; while((c = *p) == ' ' || c == '\t') p++; q = p; while((c = *q) != '\n' && c != ' ' && c != '\t') q++; if(q == p) return 0; n = q - p; new = emalloc(n + 1); memcpy(new, p, n); new[n] = 0; return new; } char* getname(char *p, char **buf) { char *s, *start; int c; while((c = *p) == ' ' || c == '\t') p++; start = p; while((c = *p) != '\n' && c != ' ' && c != '\t' && c != '\0') p++; *buf = malloc(p+1-start); if(*buf == nil) return nil; memmove(*buf, start, p-start); (*buf)[p-start] = '\0'; if(**buf == '$'){ s = getenv(*buf+1); if(s == 0){ warn("can't read environment variable %q", *buf+1); skipdir(); free(*buf); return nil; } free(*buf); *buf = s; } return p; } char* getmode(char *p, ulong *xmode) { char *buf, *s; ulong m; *xmode = ~0; p = getname(p, &buf); if(p == nil) return nil; s = buf; if(!*s || strcmp(s, "-") == 0) return p; m = 0; if(*s == 'd'){ m |= DMDIR; s++; } if(*s == 'a'){ m |= DMAPPEND; s++; } if(*s == 'l'){ m |= DMEXCL; s++; } if(s[0] < '0' || s[0] > '7' || s[1] < '0' || s[1] > '7' || s[2] < '0' || s[2] > '7' || s[3]){ warn("bad mode specification %q", buf); free(buf); return p; } *xmode = m | strtoul(s, 0, 8); free(buf); return p; } void setusers(void) { File file; int m; if(fskind != Kfs) return; m = modes; modes = 1; file.uid = "adm"; file.gid = "adm"; file.mode = DMDIR|0775; file.new = "/adm"; file.elem = "adm"; file.old = 0; setnames(&file); strcpy(oldfile, file.new); /* Don't use root for /adm */ mkfile(&file); file.new = "/adm/users"; file.old = users; file.elem = "users"; file.mode = 0664; setnames(&file); if (file.old) strcpy(oldfile, file.old); /* Don't use root for /adm/users */ mkfile(&file); kfscmd("user"); mkfile(&file); file.mode = DMDIR|0775; file.new = "/adm"; file.old = "/adm"; file.elem = "adm"; setnames(&file); strcpy(oldfile, file.old); /* Don't use root for /adm */ mkfile(&file); modes = m; } void mountkfs(char *name) { char kname[64]; if(fskind != Kfs) return; if(name[0]) snprint(kname, sizeof kname, "/srv/kfs.%s", name); else strcpy(kname, "/srv/kfs"); sfd = open(kname, ORDWR); if(sfd < 0){ fprint(2, "can't open %q\n", kname); exits("open /srv/kfs"); } if(mount(sfd, -1, "/n/kfs", MREPL|MCREATE, "") < 0){ fprint(2, "can't mount kfs on /n/kfs\n"); exits("mount kfs"); } close(sfd); strcat(kname, ".cmd"); sfd = open(kname, ORDWR); if(sfd < 0){ fprint(2, "can't open %q\n", kname); exits("open /srv/kfs"); } } void kfscmd(char *cmd) { char buf[4*1024]; int n; if(fskind != Kfs) return; if(write(sfd, cmd, strlen(cmd)) != strlen(cmd)){ fprint(2, "%q: error writing %q: %r", prog, cmd); return; } for(;;){ n = read(sfd, buf, sizeof buf - 1); if(n <= 0) return; buf[n] = '\0'; if(strcmp(buf, "done") == 0 || strcmp(buf, "success") == 0) return; if(strcmp(buf, "unknown command") == 0){ fprint(2, "%q: command %q not recognized\n", prog, cmd); return; } } } void * emalloc(ulong n) { void *p; if((p = malloc(n)) == 0) error("out of memory"); return p; } void error(char *fmt, ...) { char buf[1024]; va_list arg; sprint(buf, "%q: %q:%d: ", prog, proto, lineno); va_start(arg, fmt); vseprint(buf+strlen(buf), buf+sizeof(buf), fmt, arg); va_end(arg); fprint(2, "%s\n", buf); kfscmd("disallow"); kfscmd("sync"); exits(0); } void warn(char *fmt, ...) { char buf[1024]; va_list arg; sprint(buf, "%q: %q:%d: ", prog, proto, lineno); va_start(arg, fmt); vseprint(buf+strlen(buf), buf+sizeof(buf), fmt, arg); va_end(arg); fprint(2, "%s\n", buf); } void printfile(File *f) { if(f->old) fprint(2, "%q from %q %q %q %lo\n", f->new, f->old, f->uid, f->gid, f->mode); else fprint(2, "%q %q %q %lo\n", f->new, f->uid, f->gid, f->mode); } void usage(void) { fprint(2, "usage: %q [-aprvx] [-d root] [-n name] [-s source] [-u users] [-z n] proto ...\n", prog); exits("usage"); }