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cmd/compile: eliminate write barriers when writing non-heap ptrs

We don't need a write barrier if:
1) The location we're writing to doesn't hold a heap pointer, and
2) The value we're writing isn't a heap pointer.

The freshly returned value from runtime.newobject satisfies (1).
Pointers to globals, and the contents of the read-only data section satisfy (2).

This is particularly helpful for code like:
p := []string{"abc", "def", "ghi"}

Where the compiler generates:
   a := new([3]string)
   move(a, statictmp_)  // eliminates write barriers here
   p := a[:]

For big slice literals, this makes the code a smaller and faster to
compile.

Update #13554. Reduces the compile time by ~10% and RSS by ~30%.

Change-Id: Icab81db7591c8777f68e5d528abd48c7e44c87eb
Reviewed-on: https://go-review.googlesource.com/c/151498
Run-TryBot: Keith Randall <khr@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Austin Clements <austin@google.com>
Reviewed-by: Cherry Zhang <cherryyz@google.com>
This commit is contained in:
Keith Randall 2018-11-27 12:40:16 -08:00 committed by Keith Randall
parent 438b9544a0
commit 2140975ebd
2 changed files with 66 additions and 2 deletions

View File

@ -24,6 +24,14 @@ func needwb(v *Value) bool {
if IsStackAddr(v.Args[0]) {
return false // write on stack doesn't need write barrier
}
if v.Op == OpStore && IsGlobalAddr(v.Args[1]) && IsNewObject(v.Args[0], v.MemoryArg()) {
// Storing pointers to non-heap locations into a fresh object doesn't need a write barrier.
return false
}
if v.Op == OpMove && IsReadOnlyGlobalAddr(v.Args[1]) && IsNewObject(v.Args[0], v.MemoryArg()) {
// Copying data from readonly memory into a fresh object doesn't need a write barrier.
return false
}
return true
}
@ -353,7 +361,7 @@ func round(o int64, r int64) int64 {
return (o + r - 1) &^ (r - 1)
}
// IsStackAddr returns whether v is known to be an address of a stack slot
// IsStackAddr reports whether v is known to be an address of a stack slot.
func IsStackAddr(v *Value) bool {
for v.Op == OpOffPtr || v.Op == OpAddPtr || v.Op == OpPtrIndex || v.Op == OpCopy {
v = v.Args[0]
@ -365,6 +373,51 @@ func IsStackAddr(v *Value) bool {
return false
}
// IsGlobalAddr reports whether v is known to be an address of a global.
func IsGlobalAddr(v *Value) bool {
return v.Op == OpAddr && v.Args[0].Op == OpSB
}
// IsReadOnlyGlobalAddr reports whether v is known to be an address of a read-only global.
func IsReadOnlyGlobalAddr(v *Value) bool {
if !IsGlobalAddr(v) {
return false
}
// See TODO in OpAddr case in IsSanitizerSafeAddr below.
return strings.HasPrefix(v.Aux.(*obj.LSym).Name, `"".statictmp_`)
}
// IsNewObject reports whether v is a pointer to a freshly allocated & zeroed object at memory state mem.
// TODO: Be more precise. We really want "IsNilPointer" for the particular field in question.
// Right now, we can only detect a new object before any writes have been done to it.
// We could ignore non-pointer writes, writes to offsets which
// are known not to overlap the write in question, etc.
func IsNewObject(v *Value, mem *Value) bool {
if v.Op != OpLoad {
return false
}
if v.MemoryArg() != mem {
return false
}
if mem.Op != OpStaticCall {
return false
}
if !isSameSym(mem.Aux, "runtime.newobject") {
return false
}
if v.Args[0].Op != OpOffPtr {
return false
}
if v.Args[0].Args[0].Op != OpSP {
return false
}
c := v.Block.Func.Config
if v.Args[0].AuxInt != c.ctxt.FixedFrameSize()+c.RegSize { // offset of return value
return false
}
return true
}
// IsSanitizerSafeAddr reports whether v is known to be an address
// that doesn't need instrumentation.
func IsSanitizerSafeAddr(v *Value) bool {
@ -393,7 +446,7 @@ func IsSanitizerSafeAddr(v *Value) bool {
return false
}
// isVolatile returns whether v is a pointer to argument region on stack which
// isVolatile reports whether v is a pointer to argument region on stack which
// will be clobbered by a function call.
func isVolatile(v *Value) bool {
for v.Op == OpOffPtr || v.Op == OpAddPtr || v.Op == OpPtrIndex || v.Op == OpCopy {

View File

@ -250,3 +250,14 @@ func f23c() {
// also test partial assignments
t23 = T23{p: &i23} // ERROR "write barrier"
}
var g int
func f24() **int {
p := new(*int)
*p = &g // no write barrier here
return p
}
func f25() []string {
return []string{"abc", "def", "ghi"} // no write barrier here
}