[dev.typeparams] reflect: implement register ABI for MakeFunc etc. on ARM64

Implement register ABI for reflect.MakeFunc and method Value Call on ARM64. Change-Id: I5487febb9ea764af5ccf5d7c94858ab0acec7cac Reviewed-on: https://go-review.googlesource.com/c/go/+/323936 Trust: Cherry Mui <cherryyz@google.com> Run-TryBot: Cherry Mui <cherryyz@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Michael Knyszek <mknyszek@google.com>
2024-11-11 23:40:22 -07:00 · 2021-05-27 20:20:16 -04:00 · 2021-05-27 20:20:16 -04:00 · 0c123cdf8b
commit 0c123cdf8b
parent 2e4b79949f
2 changed files with 54 additions and 13 deletions
--- a/src/reflect/asm_arm64.s
+++ b/src/reflect/asm_arm64.s
@ -5,34 +5,75 @@
 #include "textflag.h"
 #include "funcdata.h"

+// The frames of each of the two functions below contain two locals, at offsets
+// that are known to the runtime.
+//
+// The first local is a bool called retValid with a whole pointer-word reserved
+// for it on the stack. The purpose of this word is so that the runtime knows
+// whether the stack-allocated return space contains valid values for stack
+// scanning.
+//
+// The second local is an abi.RegArgs value whose offset is also known to the
+// runtime, so that a stack map for it can be constructed, since it contains
+// pointers visible to the GC.
+#define LOCAL_RETVALID 40
+#define LOCAL_REGARGS 48
+
+// The frame size of the functions below is
+// 32 (args of callReflect) + 8 (bool + padding) + 392 (abi.RegArgs) = 432.
+
 // makeFuncStub is the code half of the function returned by MakeFunc.
 // See the comment on the declaration of makeFuncStub in makefunc.go
 // for more details.
 // No arg size here, runtime pulls arg map out of the func value.
-TEXT ·makeFuncStub(SB),(NOSPLIT|WRAPPER),$40
+TEXT ·makeFuncStub(SB),(NOSPLIT|WRAPPER),$432
 	NO_LOCAL_POINTERS
+	// NO_LOCAL_POINTERS is a lie. The stack map for the two locals in this
+	// frame is specially handled in the runtime. See the comment above LOCAL_RETVALID.
+	ADD	$LOCAL_REGARGS, RSP, R20
+	CALL	runtime·spillArgs(SB)
+	MOVD	R26, 32(RSP) // outside of moveMakeFuncArgPtrs's arg area
+	MOVD	R26, 8(RSP)
+	MOVD	R20, 16(RSP)
+	CALL	·moveMakeFuncArgPtrs(SB)
+	MOVD	32(RSP), R26
 	MOVD	R26, 8(RSP)
 	MOVD	$argframe+0(FP), R3
 	MOVD	R3, 16(RSP)
-	MOVB	$0, 40(RSP)
-	ADD	$40, RSP, R3
+	MOVB	$0, LOCAL_RETVALID(RSP)
+	ADD	$LOCAL_RETVALID, RSP, R3
 	MOVD	R3, 24(RSP)
-	MOVD	$0, 32(RSP)
-	BL	·callReflect(SB)
+	ADD	$LOCAL_REGARGS, RSP, R3
+	MOVD	R3, 32(RSP)
+	CALL	·callReflect(SB)
+	ADD	$LOCAL_REGARGS, RSP, R20
+	CALL	runtime·unspillArgs(SB)
 	RET

 // methodValueCall is the code half of the function returned by makeMethodValue.
 // See the comment on the declaration of methodValueCall in makefunc.go
 // for more details.
 // No arg size here; runtime pulls arg map out of the func value.
-TEXT ·methodValueCall(SB),(NOSPLIT|WRAPPER),$40
+TEXT ·methodValueCall(SB),(NOSPLIT|WRAPPER),$432
 	NO_LOCAL_POINTERS
+	// NO_LOCAL_POINTERS is a lie. The stack map for the two locals in this
+	// frame is specially handled in the runtime. See the comment above LOCAL_RETVALID.
+	ADD	$LOCAL_REGARGS, RSP, R20
+	CALL	runtime·spillArgs(SB)
+	MOVD	R26, 32(RSP) // outside of moveMakeFuncArgPtrs's arg area
+	MOVD	R26, 8(RSP)
+	MOVD	R20, 16(RSP)
+	CALL	·moveMakeFuncArgPtrs(SB)
+	MOVD	32(RSP), R26
 	MOVD	R26, 8(RSP)
 	MOVD	$argframe+0(FP), R3
 	MOVD	R3, 16(RSP)
-	MOVB	$0, 40(RSP)
-	ADD	$40, RSP, R3
+	MOVB	$0, LOCAL_RETVALID(RSP)
+	ADD	$LOCAL_RETVALID, RSP, R3
 	MOVD	R3, 24(RSP)
-	MOVD	$0, 32(RSP)
-	BL	·callMethod(SB)
+	ADD	$LOCAL_REGARGS, RSP, R3
+	MOVD	R3, 32(RSP)
+	CALL	·callMethod(SB)
+	ADD	$LOCAL_REGARGS, RSP, R20
+	CALL	runtime·unspillArgs(SB)
 	RET
--- a/src/runtime/stack.go
+++ b/src/runtime/stack.go
@ -1318,11 +1318,11 @@ func getStackMap(frame *stkframe, cache *pcvalueCache, debug bool) (locals, args
 	}

 	// stack objects.
-	if GOARCH == "amd64" && unsafe.Sizeof(abi.RegArgs{}) > 0 && frame.argmap != nil {
+	if (GOARCH == "amd64" || GOARCH == "arm64") && unsafe.Sizeof(abi.RegArgs{}) > 0 && frame.argmap != nil {
 		// argmap is set when the function is reflect.makeFuncStub or reflect.methodValueCall.
 		// We don't actually use argmap in this case, but we need to fake the stack object
-		// record for these frames which contain an internal/abi.RegArgs at a hard-coded offset
-		// on amd64.
+		// record for these frames which contain an internal/abi.RegArgs at a hard-coded offset.
+		// This offset matches the assembly code on amd64 and arm64.
 		objs = methodValueCallFrameObjs
 	} else {
 		p := funcdata(f, _FUNCDATA_StackObjects)