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cmd/compile, runtime: a different approach to duplicate itabs

golang.org/issue/17594 was caused by additab being called more than once for
an itab. golang.org/cl/32131 fixed that by making the itabs local symbols,
but that in turn causes golang.org/issue/18252 because now there are now
multiple itab symbols in a process for a given (type,interface) pair and
different code paths can end up referring to different itabs which breaks
lots of reflection stuff. So this makes itabs global again and just takes
care to only call additab once for each itab.

Fixes #18252

Change-Id: I781a193e2f8dd80af145a3a971f6a25537f633ea
Reviewed-on: https://go-review.googlesource.com/34173
Run-TryBot: Michael Hudson-Doyle <michael.hudson@canonical.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: David Crawshaw <crawshaw@golang.org>
This commit is contained in:
Michael Hudson-Doyle 2016-12-12 13:31:56 +13:00
parent 1106512db5
commit 1ec64e9b63
4 changed files with 25 additions and 10 deletions

View File

@ -12,6 +12,13 @@ import (
func DeclaredInMain() {
}
type C struct {
}
func F() *C {
return nil
}
func main() {
defer depBase.ImplementedInAsm()
// This code below causes various go.itab.* symbols to be generated in
@ -20,4 +27,9 @@ func main() {
reflect.TypeOf(os.Stdout).Elem()
runtime.GC()
depBase.V = depBase.F() + 1
var c *C
if reflect.TypeOf(F).Out(0) != reflect.TypeOf(c) {
panic("bad reflection results, see golang.org/issue/18252")
}
}

View File

@ -998,7 +998,6 @@ func itabname(t, itype *Type) *Node {
Fatalf("itabname(%v, %v)", t, itype)
}
s := Pkglookup(t.tconv(FmtLeft)+","+itype.tconv(FmtLeft), itabpkg)
Linksym(s).Set(obj.AttrLocal, true)
if s.Def == nil {
n := newname(s)
n.Type = Types[TUINT8]
@ -1411,15 +1410,15 @@ func dumptypestructs() {
// }
o := dsymptr(i.sym, 0, dtypesym(i.itype), 0)
o = dsymptr(i.sym, o, dtypesym(i.t), 0)
o += Widthptr + 8 // skip link/bad/unused fields
o += Widthptr + 8 // skip link/bad/inhash fields
o += len(imethods(i.itype)) * Widthptr // skip fun method pointers
// at runtime the itab will contain pointers to types, other itabs and
// method functions. None are allocated on heap, so we can use obj.NOPTR.
ggloblsym(i.sym, int32(o), int16(obj.DUPOK|obj.NOPTR|obj.LOCAL))
ggloblsym(i.sym, int32(o), int16(obj.DUPOK|obj.NOPTR))
ilink := Pkglookup(i.t.tconv(FmtLeft)+","+i.itype.tconv(FmtLeft), itablinkpkg)
dsymptr(ilink, 0, i.sym, 0)
ggloblsym(ilink, int32(Widthptr), int16(obj.DUPOK|obj.RODATA|obj.LOCAL))
ggloblsym(ilink, int32(Widthptr), int16(obj.DUPOK|obj.RODATA))
}
// process ptabs

View File

@ -138,11 +138,8 @@ func additab(m *itab, locked, canfail bool) {
throw("invalid itab locking")
}
h := itabhash(inter, typ)
if m == hash[h] {
println("duplicate itab for", typ.string(), "and", inter.typ.string())
throw("duplicate itabs")
}
m.link = hash[h]
m.inhash = 1
atomicstorep(unsafe.Pointer(&hash[h]), unsafe.Pointer(m))
}
@ -150,7 +147,14 @@ func itabsinit() {
lock(&ifaceLock)
for _, md := range activeModules() {
for _, i := range md.itablinks {
additab(i, true, false)
// itablinks is a slice of pointers to the itabs used in this
// module. A given itab may be used in more than one module
// and thanks to the way global symbol resolution works, the
// pointed-to itab may already have been inserted into the
// global 'hash'.
if i.inhash == 0 {
additab(i, true, false)
}
}
}
unlock(&ifaceLock)

View File

@ -640,7 +640,7 @@ type itab struct {
_type *_type
link *itab
bad int32
unused int32
inhash int32 // has this itab been added to hash?
fun [1]uintptr // variable sized
}