ref: 3efb5bbb4061056e523858b134c555949591efe2
dir: /appl/lib/vac.b/
implement Vac; include "sys.m"; sys: Sys; sprint: import sys; include "venti.m"; venti: Venti; Entrysize, Scoresize, Roottype, Dirtype, Pointertype0, Datatype: import venti; Root, Entry, Score, Session: import venti; include "vac.m"; dflag = 0; BIT8SZ: con 1; BIT16SZ: con 2; BIT32SZ: con 4; BIT48SZ: con 6; BIT64SZ: con 8; Rootnamelen: con 128; Rootversion: con 2; Direntrymagic: con 16r1c4d9072; Metablockmagic: con 16r5656fc79; Maxstringsize: con 1000; blankroot: Root; blankentry: Entry; blankdirentry: Direntry; blankmetablock: Metablock; blankmetaentry: Metaentry; init() { sys = load Sys Sys->PATH; venti = load Venti Venti->PATH; venti->init(); } Direntry.new(): ref Direntry { return ref Direntry(9, "", 0, 0, 0, 0, big 0, "", "", "", 0, 0, 0, 0, 0, 0, 0, big 0, big 0); } Direntry.mk(d: Sys->Dir): ref Direntry { atime := 0; # d.atime; mode := d.mode&Modeperm; if(d.mode&sys->DMAPPEND) mode |= Modeappend; if(d.mode&sys->DMEXCL) mode |= Modeexcl; if(d.mode&sys->DMDIR) mode |= Modedir; if(d.mode&sys->DMTMP) mode |= Modetemp; return ref Direntry(9, d.name, 0, 0, 0, 0, d.qid.path, d.uid, d.gid, d.muid, d.mtime, 0, 0, atime, mode, d.mode, 0, big 0, big 0); } Direntry.mkdir(de: self ref Direntry): ref Sys->Dir { d := ref sys->nulldir; d.name = de.elem; d.uid = de.uid; d.gid = de.gid; d.muid = de.mid; d.qid.path = de.qid; d.qid.vers = 0; d.qid.qtype = de.emode>>24; d.mode = de.emode; d.atime = de.atime; d.mtime = de.mtime; d.length = big 0; return d; } strlen(s: string): int { return 2+len array of byte s; } Direntry.pack(de: self ref Direntry): array of byte { if(de.version != 9) { sys->werrstr("only version 9 supported"); return nil; } length := 4+2+strlen(de.elem)+4+4+4+4+8+strlen(de.uid)+strlen(de.gid)+strlen(de.mid)+4+4+4+4+4; if(de.qidspace) length += 1+2+8+8; d := array[length] of byte; i := 0; i = p32(d, i, Direntrymagic); i = p16(d, i, de.version); i = pstring(d, i, de.elem); i = p32(d, i, de.entry); if(de.version == 9) { i = p32(d, i, de.gen); i = p32(d, i, de.mentry); i = p32(d, i, de.mgen); } i = p64(d, i, de.qid); i = pstring(d, i, de.uid); i = pstring(d, i, de.gid); i = pstring(d, i, de.mid); i = p32(d, i, de.mtime); i = p32(d, i, de.mcount); i = p32(d, i, de.ctime); i = p32(d, i, de.atime); i = p32(d, i, de.mode); if(de.qidspace) { d[i++] = byte DirQidspace; i = p16(d, i, 16); i = p64(d, i, de.qidoff); i = p64(d, i, de.qidmax); } if(i != len d) { sys->werrstr(sprint("bad length for direntry (expected %d, have %d)", len d, i)); return nil; } return d; } Direntry.unpack(d: array of byte): ref Direntry { { de := ref blankdirentry; i := 0; magic: int; (magic, i) = eg32(d, i); if(magic != Direntrymagic) { sys->werrstr(sprint("bad magic (%x, want %x)", magic, Direntrymagic)); return nil; } (de.version, i) = eg16(d, i); if(de.version != 8 && de.version != 9) { sys->werrstr(sprint("bad version (%d)", de.version)); return nil; } (de.elem, i) = egstring(d, i); (de.entry, i) = eg32(d, i); case de.version { 8 => de.gen = 0; de.mentry = de.entry+1; de.mgen = 0; 9 => (de.gen, i) = eg32(d, i); (de.mentry, i) = eg32(d, i); (de.mgen, i) = eg32(d, i); } (de.qid, i) = eg64(d, i); (de.uid, i) = egstring(d, i); (de.gid, i) = egstring(d, i); (de.mid, i) = egstring(d, i); (de.mtime, i) = eg32(d, i); (de.mcount, i) = eg32(d, i); (de.ctime, i) = eg32(d, i); (de.atime, i) = eg32(d, i); (de.mode, i) = eg32(d, i); de.emode = de.mode&Modeperm; if(de.mode&Modeappend) de.emode |= sys->DMAPPEND; if(de.mode&Modeexcl) de.emode |= sys->DMEXCL; if(de.mode&Modedir) de.emode |= sys->DMDIR; if(de.mode&Modetemp) de.emode |= sys->DMTMP; while(i < len d) { t := int d[i++]; n: int; (n, i) = eg16(d, i); case t { DirQidspace => if(n != 16) { sys->werrstr(sprint("invalid qidspace length %d", n)); return nil; } de.qidspace = 1; (de.qidoff, i) = eg64(d, i); (de.qidmax, i) = eg64(d, i); * => # ignore other optional fields i += n; } } return de; } exception e { "too small:*" => sys->werrstr("direntry "+e); return nil; * => raise e; } } Metablock.new(): ref Metablock { return ref Metablock(0, 0, 0, 0); } Metablock.pack(mb: self ref Metablock, d: array of byte) { i := 0; i = p32(d, i, Metablockmagic); i = p16(d, i, mb.size); i = p16(d, i, mb.free); i = p16(d, i, mb.maxindex); i = p16(d, i, mb.nindex); } Metablock.unpack(d: array of byte): ref Metablock { if(len d < Metablocksize) { sys->werrstr(sprint("bad length for metablock (%d, want %d)", len d, Metablocksize)); return nil; } i := 0; magic := g32(d, i); if(magic != Metablockmagic && magic != Metablockmagic+1) { sys->werrstr(sprint("bad magic for metablock (%x, need %x)", magic, Metablockmagic)); return nil; } i += BIT32SZ; mb := ref blankmetablock; mb.size = g16(d, i); i += BIT16SZ; mb.free = g16(d, i); i += BIT16SZ; mb.maxindex = g16(d, i); i += BIT16SZ; mb.nindex = g16(d, i); i += BIT16SZ; if(mb.nindex == 0) { sys->werrstr("bad metablock, nindex=0"); return nil; } return mb; } Metaentry.pack(me: self ref Metaentry, d: array of byte) { i := 0; i = p16(d, i, me.offset); i = p16(d, i, me.size); } Metaentry.unpack(d: array of byte, i: int): ref Metaentry { o := Metablocksize+i*Metaentrysize; if(o+Metaentrysize > len d) { sys->werrstr(sprint("meta entry lies outside meta block, i=%d", i)); return nil; } me := ref blankmetaentry; me.offset = g16(d, o); o += BIT16SZ; me.size = g16(d, o); o += BIT16SZ; if(me.offset+me.size > len d) { sys->werrstr(sprint("meta entry points outside meta block, i=%d", i)); return nil; } return me; } Page.new(dsize: int): ref Page { psize := (dsize/Scoresize)*Scoresize; return ref Page(array[psize] of byte, 0); } Page.add(p: self ref Page, s: Score) { for(i := 0; i < Scoresize; i++) p.d[p.o+i] = s.a[i]; p.o += Scoresize; } Page.full(p: self ref Page): int { return p.o+Scoresize > len p.d; } Page.data(p: self ref Page): array of byte { for(i := p.o; i >= Scoresize; i -= Scoresize) if(!Score(p.d[i-Scoresize:i]).eq(Score.zero())) break; return p.d[:i]; } File.new(s: ref Session, dtype, dsize: int): ref File { p := array[1] of ref Page; p[0] = Page.new(dsize); return ref File(p, dtype, dsize, big 0, s); } fflush(f: ref File, last: int): (int, ref Entry) { for(i := 0; i < len f.p; i++) { if(!last && !f.p[i].full()) return (0, nil); if(last && f.p[i].o == Scoresize) { flags := venti->Entryactive; if(f.dtype == Dirtype) flags |= venti->Entrydir; flags |= i<<venti->Entrydepthshift; score := Score(f.p[i].data()); if(len score.a == 0) score = Score.zero(); return (0, ref Entry(0, len f.p[i].d, f.dsize, i, flags, f.size, score)); } (ok, score) := f.s.write(Pointertype0+i, f.p[i].data()); if(ok < 0) return (-1, nil); f.p[i] = Page.new(f.dsize); if(i+1 == len f.p) { newp := array[len f.p+1] of ref Page; newp[:] = f.p; newp[len newp-1] = Page.new(f.dsize); f.p = newp; } f.p[i+1].add(score); } sys->werrstr("internal error in fflush"); return (-1, nil); } File.write(f: self ref File, d: array of byte): int { (fok, nil) := fflush(f, 0); if(fok < 0) return -1; length := len d; for(i := len d; i > 0; i--) if(d[i-1] != byte 0) break; d = d[:i]; (ok, score) := f.s.write(f.dtype, d); if(ok < 0) return -1; f.size += big length; f.p[0].add(score); return 0; } File.finish(f: self ref File): ref Entry { (ok, e) := fflush(f, 1); if(ok < 0) return nil; return e; } Sink.new(s: ref Venti->Session, dsize: int): ref Sink { dirdsize := (dsize/Entrysize)*Entrysize; return ref Sink(File.new(s, Dirtype, dsize), array[dirdsize] of byte, 0, 0); } Sink.add(m: self ref Sink, e: ref Entry): int { ed := e.pack(); if(ed == nil) return -1; n := len m.d - m.nd; if(n > len ed) n = len ed; m.d[m.nd:] = ed[:n]; m.nd += n; if(n < len ed) { if(m.f.write(m.d) < 0) return -1; m.nd = len ed - n; m.d[:] = ed[n:]; } return m.ne++; } Sink.finish(m: self ref Sink): ref Entry { if(m.nd > 0) if(m.f.write(m.d[:m.nd]) < 0) return nil; e := m.f.finish(); e.dsize = len m.d; return e; } elemcmp(a, b: array of byte, fossil: int): int { for(i := 0; i < len a && i < len b; i++) if(a[i] != b[i]) return (int a[i] - int b[i]); if(fossil) return len a - len b; return len b - len a; } Mentry.cmp(a, b: ref Mentry): int { return elemcmp(array of byte a.elem, array of byte b.elem, 0); } MSink.new(s: ref Venti->Session, dsize: int): ref MSink { return ref MSink(File.new(s, Datatype, dsize), array[dsize] of byte, 0, nil); } l2a[T](l: list of T): array of T { a := array[len l] of T; i := 0; for(; l != nil; l = tl l) a[i++] = hd l; return a; } insertsort[T](a: array of T) for { T => cmp: fn(a, b: T): int; } { for(i := 1; i < len a; i++) { tmp := a[i]; for(j := i; j > 0 && T.cmp(a[j-1], tmp) > 0; j--) a[j] = a[j-1]; a[j] = tmp; } } mflush(m: ref MSink, last: int): int { d := array[len m.de] of byte; me := l2a(m.l); insertsort(me); o := Metablocksize; deo := o+len m.l*Metaentrysize; for(i := 0; i < len me; i++) { me[i].me.offset += deo; me[i].me.pack(d[o:]); o += Metaentrysize; } d[o:] = m.de[:m.nde]; o += m.nde; if(!last) while(o < len d) d[o++] = byte 0; mb := Metablock.new(); mb.nindex = len m.l; mb.maxindex = mb.nindex; mb.free = 0; mb.size = o; mb.pack(d); if(m.f.write(d[:o]) < 0) return -1; m.nde = 0; m.l = nil; return 0; } MSink.add(m: self ref MSink, de: ref Direntry): int { d := de.pack(); if(d == nil) return -1; if(dflag) say(sprint("msink: adding direntry, length %d", len d)); if(Metablocksize+len m.l*Metaentrysize+m.nde + Metaentrysize+len d > len m.de) if(mflush(m, 0) < 0) return -1; m.de[m.nde:] = d; m.l = ref Mentry(de.elem, ref Metaentry(m.nde, len d))::m.l; m.nde += len d; return 0; } MSink.finish(m: self ref MSink): ref Entry { if(m.nde > 0) mflush(m, 1); return m.f.finish(); } Source.new(s: ref Session, e: ref Entry): ref Source { dsize := e.dsize; if(e.flags&venti->Entrydir) dsize = Entrysize*(dsize/Entrysize); return ref Source(s, e, dsize); } power(b, e: int): big { r := big 1; while(e-- > 0) r *= big b; return r; } blocksize(e: ref Entry): int { if(e.psize > e.dsize) return e.psize; return e.dsize; } Source.get(s: self ref Source, i: big, d: array of byte): int { npages := (s.e.size+big (s.dsize-1))/big s.dsize; if(i*big s.dsize >= s.e.size) return 0; want := s.dsize; if(i == npages-big 1) want = int (s.e.size - i*big s.dsize); last := s.e.score; bsize := blocksize(s.e); buf: array of byte; npp := s.e.psize/Scoresize; # scores per pointer block np := power(npp, s.e.depth-1); # blocks referenced by score at this depth for(depth := s.e.depth; depth >= 0; depth--) { dtype := Pointertype0+depth-1; if(depth == 0) { dtype = Datatype; if(s.e.flags & venti->Entrydir) dtype = Dirtype; bsize = want; } buf = s.session.read(last, dtype, bsize); if(buf == nil) return -1; if(depth > 0) { pi := int (i / np); i %= np; np /= big npp; o := (pi+1)*Scoresize; if(o <= len buf) last = Score(buf[o-Scoresize:o]); else last = Score.zero(); } } for(j := len buf; j < want; j++) d[j] = byte 0; d[:] = buf; return want; } Vacfile.mk(s: ref Source): ref Vacfile { return ref Vacfile(s, big 0); } Vacfile.new(s: ref Session, e: ref Entry): ref Vacfile { return Vacfile.mk(Source.new(s, e)); } Vacfile.seek(v: self ref Vacfile, offset: big): big { v.o += offset; if(v.o > v.s.e.size) v.o = v.s.e.size; return v.o; } Vacfile.read(v: self ref Vacfile, d: array of byte, n: int): int { have := v.pread(d, n, v.o); if(have > 0) v.o += big have; return have; } Vacfile.pread(v: self ref Vacfile, d: array of byte, n: int, offset: big): int { dsize := v.s.dsize; if(dflag) say(sprint("vf.preadn, len d %d, n %d, offset %bd", len d, n, offset)); have := v.s.get(big (offset/big dsize), buf := array[dsize] of byte); if(have <= 0) return have; if(dflag) say(sprint("vacfile.pread: have=%d dsize=%d", have, dsize)); o := int (offset % big dsize); have -= o; if(have > n) have = n; if(have <= 0) return 0; d[:] = buf[o:o+have]; return have; } Vacdir.mk(vf: ref Vacfile, ms: ref Source): ref Vacdir { return ref Vacdir(vf, ms, big 0, 0); } Vacdir.new(session: ref Session, e, me: ref Entry): ref Vacdir { vf := Vacfile.new(session, e); ms := Source.new(session, me); return Vacdir.mk(vf, ms); } mecmp(d: array of byte, i: int, elem: string, fromfossil: int): (int, int) { me := Metaentry.unpack(d, i); if(me == nil) return (0, 1); o := me.offset+6; n := g16(d, o); o += BIT16SZ; if(o+n > len d) { sys->werrstr("bad elem in direntry"); return (0, 1); } return (elemcmp(d[o:o+n], array of byte elem, fromfossil), 0); } finddirentry(d: array of byte, elem: string): (int, ref Direntry) { mb := Metablock.unpack(d); if(mb == nil) return (-1, nil); fromfossil := g32(d, 0) == Metablockmagic+1; left := 0; right := mb.nindex; while(left+1 != right) { mid := (left+right)/2; (c, err) := mecmp(d, mid, elem, fromfossil); if(err) return (-1, nil); if(c <= 0) left = mid; else right = mid; if(c == 0) break; } de := readdirentry(d, left, 0); if(de != nil && de.elem == elem) return (1, de); return (0, nil); } Vacdir.walk(v: self ref Vacdir, elem: string): ref Direntry { i := big 0; for(;;) { n := v.ms.get(i, buf := array[v.ms.e.dsize] of byte); if(n < 0) return nil; if(n == 0) break; (ok, de) := finddirentry(buf[:n], elem); if(ok < 0) return nil; if(de != nil) return de; i++; } sys->werrstr(sprint("no such file or directory")); return nil; } vfreadentry(vf: ref Vacfile, entry: int): ref Entry { if(dflag) say(sprint("vfreadentry: reading entry=%d", entry)); ebuf := array[Entrysize] of byte; n := vf.pread(ebuf, len ebuf, big entry*big Entrysize); if(n < 0) return nil; if(n != len ebuf) { sys->werrstr(sprint("bad archive, entry=%d not present (read %d, wanted %d)", entry, n, len ebuf)); return nil; } e := Entry.unpack(ebuf); if(e == nil) return nil; if(~e.flags&venti->Entryactive) { sys->werrstr("entry not active"); return nil; } # p9p writes archives with Entrylocal set? if(0 && e.flags&venti->Entrylocal) { sys->werrstr("entry is local"); return nil; } if(dflag) say(sprint("vreadentry: have entry, score=%s", e.score.text())); return e; } Vacdir.open(vd: self ref Vacdir, de: ref Direntry): (ref Entry, ref Entry) { if(dflag) say(sprint("vacdir.open: opening entry=%d", de.entry)); e := vfreadentry(vd.vf, de.entry); if(e == nil) return (nil, nil); isdir1 := de.mode & Modedir; isdir2 := e.flags & venti->Entrydir; if(isdir1 && !isdir2 || !isdir1 && isdir2) { sys->werrstr("direntry directory bit does not match entry directory bit"); return (nil, nil); } if(dflag) say(sprint("vacdir.open: have entry, score=%s size=%bd", e.score.text(), e.size)); me: ref Entry; if(de.mode&Modedir) { me = vfreadentry(vd.vf, de.mentry); if(me == nil) return (nil, nil); if(dflag) say(sprint("vacdir.open: have mentry, score=%s size=%bd", me.score.text(), e.size)); } return (e, me); } readdirentry(buf: array of byte, i: int, allowroot: int): ref Direntry { me := Metaentry.unpack(buf, i); if(me == nil) return nil; o := me.offset; de := Direntry.unpack(buf[o:o+me.size]); if(de == nil) return nil; if(badelem(de.elem) && !(allowroot && de.elem == "/")) { sys->werrstr(sprint("bad direntry: %s", de.elem)); return nil; } return de; } has(c: int, s: string): int { for(i := 0; i < len s; i++) if(s[i] == c) return 1; return 0; } badelem(elem: string): int { return elem == "" || elem == "." || elem == ".." || has('/', elem) || has(0, elem); } vdreaddir(vd: ref Vacdir, allowroot: int): (int, ref Direntry) { if(dflag) say(sprint("vdreaddir: ms.e.size=%bd vd.p=%bd vd.i=%d", vd.ms.e.size, vd.p, vd.i)); dsize := vd.ms.dsize; n := vd.ms.get(vd.p, buf := array[dsize] of byte); if(n <= 0) return (n, nil); if(dflag) say(sprint("vdreaddir: have buf, length=%d e.size=%bd", n, vd.ms.e.size)); mb := Metablock.unpack(buf); if(mb == nil) return (-1, nil); de := readdirentry(buf, vd.i, allowroot); if(de == nil) return (-1, nil); vd.i++; if(vd.i >= mb.nindex) { vd.p++; vd.i = 0; } if(dflag) say("vdreaddir: have entry"); return (1, de); } Vacdir.readdir(vd: self ref Vacdir): (int, ref Direntry) { return vdreaddir(vd, 0); } Vacdir.rewind(vd: self ref Vacdir) { vd.p = big 0; vd.i = 0; } vdroot(session: ref Session, score: Venti->Score): (ref Vacdir, ref Direntry, string) { d := session.read(score, venti->Roottype, venti->Rootsize); if(d == nil) return (nil, nil, sprint("reading vac score: %r")); r := Root.unpack(d); if(r == nil) return (nil, nil, sprint("bad vac root block: %r")); topscore := r.score; d = session.read(topscore, Dirtype, 3*Entrysize); if(d == nil) return (nil, nil, sprint("reading rootdir score: %r")); if(len d != 3*Entrysize) { if(len d % Entrysize != 0 && len d == 2*Entrysize != 0) # what's in the second 40 bytes? looks like 2nd 20 bytes of it is zero score return (nil, nil, sprint("bad fossil rootdir, have %d bytes, need %d or %d", len d, Entrysize, 2*Entrysize)); e := Entry.unpack(d[:Entrysize]); if(e == nil) return (nil, nil, sprint("unpacking fossil top-level entry: %r")); topscore = e.score; d = session.read(topscore, Dirtype, 3*Entrysize); if(d == nil) return (nil, nil, sprint("reading fossil rootdir block: %r")); } e := array[3] of ref Entry; j := 0; for(i := 0; i+Entrysize <= len d; i += Entrysize) { e[j] = Entry.unpack(d[i:i+Entrysize]); if(e[j] == nil) return (nil, nil, sprint("reading root entry %d: %r", j)); j++; } if(dflag) say("top entries unpacked"); mroot := Vacdir.mk(nil, Source.new(session, e[2])); (ok, de) := vdreaddir(mroot, 1); if(ok <= 0) return (nil, nil, sprint("reading root meta entry: %r")); return (Vacdir.new(session, e[0], e[1]), de, nil); } checksize(n: int): int { if(n < 256 || n > Venti->Maxlumpsize) { sys->werrstr("bad block size"); return 0; } return 1; } gstring(a: array of byte, o: int): (string, int) { if(o < 0 || o+BIT16SZ > len a) return (nil, -1); l := (int a[o] << 8) | int a[o+1]; if(l > Maxstringsize) return (nil, -1); o += BIT16SZ; e := o+l; if(e > len a) return (nil, -1); return (string a[o:e], e); } gtstring(a: array of byte, o: int, n: int): string { e := o + n; if(e > len a) return nil; for(i := o; i < e; i++) if(a[i] == byte 0) break; return string a[o:i]; } gscore(f: array of byte, i: int): Score { s := Score(array[Scoresize] of byte); s.a[0:] = f[i:i+Scoresize]; return s; } g16(f: array of byte, i: int): int { return (int f[i] << 8) | int f[i+1]; } g32(f: array of byte, i: int): int { return (((((int f[i+0] << 8) | int f[i+1]) << 8) | int f[i+2]) << 8) | int f[i+3]; } g48(f: array of byte, i: int): big { return big g16(f, i)<<32 | (big g32(f, i+2) & 16rFFFFFFFF); } g64(f: array of byte, i: int): big { return big g32(f, i)<<32 | (big g32(f, i+4) & 16rFFFFFFFF); } p16(d: array of byte, i: int, v: int): int { d[i+0] = byte (v>>8); d[i+1] = byte v; return i+BIT16SZ; } p32(d: array of byte, i: int, v: int): int { p16(d, i+0, v>>16); p16(d, i+2, v); return i+BIT32SZ; } p48(d: array of byte, i: int, v: big): int { p16(d, i+0, int (v>>32)); p32(d, i+2, int v); return i+BIT48SZ; } p64(d: array of byte, i: int, v: big): int { p32(d, i+0, int (v>>32)); p32(d, i+4, int v); return i+BIT64SZ; } pstring(a: array of byte, o: int, s: string): int { sa := array of byte s; # could do conversion ourselves n := len sa; a[o] = byte (n >> 8); a[o+1] = byte n; a[o+2:] = sa; return o+BIT16SZ+n; } ptstring(d: array of byte, i: int, s: string, l: int): int { a := array of byte s; if(len a > l) { sys->werrstr("string too long: "+s); return -1; } for(j := 0; j < len a; j++) d[i+j] = a[j]; while(j < l) d[i+j++] = byte 0; return i+l; } pscore(d: array of byte, i: int, s: Score): int { for(j := 0; j < Scoresize; j++) d[i+j] = s.a[j]; return i+Scoresize; } echeck(f: array of byte, i: int, l: int) { if(i+l > len f) raise sprint("too small: buffer length is %d, requested %d bytes starting at offset %d", len f, l, i); } egscore(f: array of byte, i: int): (Score, int) { echeck(f, i, Scoresize); return (gscore(f, i), i+Scoresize); } egstring(a: array of byte, o: int): (string, int) { (s, no) := gstring(a, o); if(no == -1) raise sprint("too small: string runs outside buffer (length %d)", len a); return (s, no); } eg16(f: array of byte, i: int): (int, int) { echeck(f, i, BIT16SZ); return (g16(f, i), i+BIT16SZ); } eg32(f: array of byte, i: int): (int, int) { echeck(f, i, BIT32SZ); return (g32(f, i), i+BIT32SZ); } eg48(f: array of byte, i: int): (big, int) { echeck(f, i, BIT48SZ); return (g48(f, i), i+BIT48SZ); } eg64(f: array of byte, i: int): (big, int) { echeck(f, i, BIT64SZ); return (g64(f, i), i+BIT64SZ); } say(s: string) { if(dflag) sys->fprint(sys->fildes(2), "%s\n", s); }