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// Copyright 2018 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package wasm
import (
"cmd/compile/internal/base"
"cmd/compile/internal/ir"
"cmd/compile/internal/logopt"
"cmd/compile/internal/objw"
"cmd/compile/internal/ssa"
"cmd/compile/internal/ssagen"
"cmd/compile/internal/types"
"cmd/internal/obj"
"cmd/internal/obj/wasm"
"internal/buildcfg"
)
func Init(arch *ssagen.ArchInfo) {
arch.LinkArch = &wasm.Linkwasm
arch.REGSP = wasm.REG_SP
arch.MAXWIDTH = 1 << 50
arch.ZeroRange = zeroRange
arch.Ginsnop = ginsnop
arch.Ginsnopdefer = ginsnop
arch.SSAMarkMoves = ssaMarkMoves
arch.SSAGenValue = ssaGenValue
arch.SSAGenBlock = ssaGenBlock
}
func zeroRange(pp *objw.Progs, p *obj.Prog, off, cnt int64, state *uint32) *obj.Prog {
if cnt == 0 {
return p
}
if cnt%8 != 0 {
base.Fatalf("zerorange count not a multiple of widthptr %d", cnt)
}
for i := int64(0); i < cnt; i += 8 {
p = pp.Append(p, wasm.AGet, obj.TYPE_REG, wasm.REG_SP, 0, 0, 0, 0)
p = pp.Append(p, wasm.AI64Const, obj.TYPE_CONST, 0, 0, 0, 0, 0)
p = pp.Append(p, wasm.AI64Store, 0, 0, 0, obj.TYPE_CONST, 0, off+i)
}
return p
}
func ginsnop(pp *objw.Progs) *obj.Prog {
return pp.Prog(wasm.ANop)
}
func ssaMarkMoves(s *ssagen.State, b *ssa.Block) {
}
func ssaGenBlock(s *ssagen.State, b, next *ssa.Block) {
switch b.Kind {
case ssa.BlockPlain:
if next != b.Succs[0].Block() {
s.Br(obj.AJMP, b.Succs[0].Block())
}
case ssa.BlockIf:
switch next {
case b.Succs[0].Block():
// if false, jump to b.Succs[1]
getValue32(s, b.Controls[0])
s.Prog(wasm.AI32Eqz)
s.Prog(wasm.AIf)
s.Br(obj.AJMP, b.Succs[1].Block())
s.Prog(wasm.AEnd)
case b.Succs[1].Block():
// if true, jump to b.Succs[0]
getValue32(s, b.Controls[0])
s.Prog(wasm.AIf)
s.Br(obj.AJMP, b.Succs[0].Block())
s.Prog(wasm.AEnd)
default:
// if true, jump to b.Succs[0], else jump to b.Succs[1]
getValue32(s, b.Controls[0])
s.Prog(wasm.AIf)
s.Br(obj.AJMP, b.Succs[0].Block())
s.Prog(wasm.AEnd)
s.Br(obj.AJMP, b.Succs[1].Block())
}
case ssa.BlockRet:
s.Prog(obj.ARET)
case ssa.BlockRetJmp:
p := s.Prog(obj.ARET)
p.To.Type = obj.TYPE_MEM
p.To.Name = obj.NAME_EXTERN
p.To.Sym = b.Aux.(*obj.LSym)
case ssa.BlockExit:
case ssa.BlockDefer:
p := s.Prog(wasm.AGet)
p.From = obj.Addr{Type: obj.TYPE_REG, Reg: wasm.REG_RET0}
s.Prog(wasm.AI64Eqz)
s.Prog(wasm.AI32Eqz)
s.Prog(wasm.AIf)
s.Br(obj.AJMP, b.Succs[1].Block())
s.Prog(wasm.AEnd)
if next != b.Succs[0].Block() {
s.Br(obj.AJMP, b.Succs[0].Block())
}
default:
panic("unexpected block")
}
// Entry point for the next block. Used by the JMP in goToBlock.
s.Prog(wasm.ARESUMEPOINT)
if s.OnWasmStackSkipped != 0 {
panic("wasm: bad stack")
}
}
func ssaGenValue(s *ssagen.State, v *ssa.Value) {
switch v.Op {
case ssa.OpWasmLoweredStaticCall, ssa.OpWasmLoweredClosureCall, ssa.OpWasmLoweredInterCall:
s.PrepareCall(v)
if call, ok := v.Aux.(*ssa.AuxCall); ok && call.Fn == ir.Syms.Deferreturn {
// add a resume point before call to deferreturn so it can be called again via jmpdefer
s.Prog(wasm.ARESUMEPOINT)
}
if v.Op == ssa.OpWasmLoweredClosureCall {
getValue64(s, v.Args[1])
setReg(s, wasm.REG_CTXT)
}
if call, ok := v.Aux.(*ssa.AuxCall); ok && call.Fn != nil {
sym := call.Fn
p := s.Prog(obj.ACALL)
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: sym}
p.Pos = v.Pos
} else {
getValue64(s, v.Args[0])
p := s.Prog(obj.ACALL)
p.To = obj.Addr{Type: obj.TYPE_NONE}
p.Pos = v.Pos
}
case ssa.OpWasmLoweredMove:
getValue32(s, v.Args[0])
getValue32(s, v.Args[1])
i32Const(s, int32(v.AuxInt))
p := s.Prog(wasm.ACall)
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: ir.Syms.WasmMove}
case ssa.OpWasmLoweredZero:
getValue32(s, v.Args[0])
i32Const(s, int32(v.AuxInt))
p := s.Prog(wasm.ACall)
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: ir.Syms.WasmZero}
case ssa.OpWasmLoweredNilCheck:
getValue64(s, v.Args[0])
s.Prog(wasm.AI64Eqz)
s.Prog(wasm.AIf)
p := s.Prog(wasm.ACALLNORESUME)
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: ir.Syms.SigPanic}
s.Prog(wasm.AEnd)
if logopt.Enabled() {
logopt.LogOpt(v.Pos, "nilcheck", "genssa", v.Block.Func.Name)
}
if base.Debug.Nil != 0 && v.Pos.Line() > 1 { // v.Pos.Line()==1 in generated wrappers
base.WarnfAt(v.Pos, "generated nil check")
}
case ssa.OpWasmLoweredWB:
getValue64(s, v.Args[0])
getValue64(s, v.Args[1])
p := s.Prog(wasm.ACALLNORESUME) // TODO(neelance): If possible, turn this into a simple wasm.ACall).
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: v.Aux.(*obj.LSym)}
case ssa.OpWasmI64Store8, ssa.OpWasmI64Store16, ssa.OpWasmI64Store32, ssa.OpWasmI64Store, ssa.OpWasmF32Store, ssa.OpWasmF64Store:
getValue32(s, v.Args[0])
getValue64(s, v.Args[1])
p := s.Prog(v.Op.Asm())
p.To = obj.Addr{Type: obj.TYPE_CONST, Offset: v.AuxInt}
case ssa.OpStoreReg:
getReg(s, wasm.REG_SP)
getValue64(s, v.Args[0])
p := s.Prog(storeOp(v.Type))
ssagen.AddrAuto(&p.To, v)
case ssa.OpClobber, ssa.OpClobberReg:
// TODO: implement for clobberdead experiment. Nop is ok for now.
default:
if v.Type.IsMemory() {
return
}
if v.OnWasmStack {
s.OnWasmStackSkipped++
// If a Value is marked OnWasmStack, we don't generate the value and store it to a register now.
// Instead, we delay the generation to when the value is used and then directly generate it on the WebAssembly stack.
return
}
ssaGenValueOnStack(s, v, true)
if s.OnWasmStackSkipped != 0 {
panic("wasm: bad stack")
}
setReg(s, v.Reg())
}
}
func ssaGenValueOnStack(s *ssagen.State, v *ssa.Value, extend bool) {
switch v.Op {
case ssa.OpWasmLoweredGetClosurePtr:
getReg(s, wasm.REG_CTXT)
case ssa.OpWasmLoweredGetCallerPC:
p := s.Prog(wasm.AI64Load)
// Caller PC is stored 8 bytes below first parameter.
p.From = obj.Addr{
Type: obj.TYPE_MEM,
Name: obj.NAME_PARAM,
Offset: -8,
}
case ssa.OpWasmLoweredGetCallerSP:
p := s.Prog(wasm.AGet)
// Caller SP is the address of the first parameter.
p.From = obj.Addr{
Type: obj.TYPE_ADDR,
Name: obj.NAME_PARAM,
Reg: wasm.REG_SP,
Offset: 0,
}
case ssa.OpWasmLoweredAddr:
if v.Aux == nil { // address of off(SP), no symbol
getValue64(s, v.Args[0])
i64Const(s, v.AuxInt)
s.Prog(wasm.AI64Add)
break
}
p := s.Prog(wasm.AGet)
p.From.Type = obj.TYPE_ADDR
switch v.Aux.(type) {
case *obj.LSym:
ssagen.AddAux(&p.From, v)
case *ir.Name:
p.From.Reg = v.Args[0].Reg()
ssagen.AddAux(&p.From, v)
default:
panic("wasm: bad LoweredAddr")
}
case ssa.OpWasmLoweredConvert:
getValue64(s, v.Args[0])
case ssa.OpWasmSelect:
getValue64(s, v.Args[0])
getValue64(s, v.Args[1])
getValue32(s, v.Args[2])
s.Prog(v.Op.Asm())
case ssa.OpWasmI64AddConst:
getValue64(s, v.Args[0])
i64Const(s, v.AuxInt)
s.Prog(v.Op.Asm())
case ssa.OpWasmI64Const:
i64Const(s, v.AuxInt)
case ssa.OpWasmF32Const:
f32Const(s, v.AuxFloat())
case ssa.OpWasmF64Const:
f64Const(s, v.AuxFloat())
case ssa.OpWasmI64Load8U, ssa.OpWasmI64Load8S, ssa.OpWasmI64Load16U, ssa.OpWasmI64Load16S, ssa.OpWasmI64Load32U, ssa.OpWasmI64Load32S, ssa.OpWasmI64Load, ssa.OpWasmF32Load, ssa.OpWasmF64Load:
getValue32(s, v.Args[0])
p := s.Prog(v.Op.Asm())
p.From = obj.Addr{Type: obj.TYPE_CONST, Offset: v.AuxInt}
case ssa.OpWasmI64Eqz:
getValue64(s, v.Args[0])
s.Prog(v.Op.Asm())
if extend {
s.Prog(wasm.AI64ExtendI32U)
}
case ssa.OpWasmI64Eq, ssa.OpWasmI64Ne, ssa.OpWasmI64LtS, ssa.OpWasmI64LtU, ssa.OpWasmI64GtS, ssa.OpWasmI64GtU, ssa.OpWasmI64LeS, ssa.OpWasmI64LeU, ssa.OpWasmI64GeS, ssa.OpWasmI64GeU,
ssa.OpWasmF32Eq, ssa.OpWasmF32Ne, ssa.OpWasmF32Lt, ssa.OpWasmF32Gt, ssa.OpWasmF32Le, ssa.OpWasmF32Ge,
ssa.OpWasmF64Eq, ssa.OpWasmF64Ne, ssa.OpWasmF64Lt, ssa.OpWasmF64Gt, ssa.OpWasmF64Le, ssa.OpWasmF64Ge:
getValue64(s, v.Args[0])
getValue64(s, v.Args[1])
s.Prog(v.Op.Asm())
if extend {
s.Prog(wasm.AI64ExtendI32U)
}
case ssa.OpWasmI64Add, ssa.OpWasmI64Sub, ssa.OpWasmI64Mul, ssa.OpWasmI64DivU, ssa.OpWasmI64RemS, ssa.OpWasmI64RemU, ssa.OpWasmI64And, ssa.OpWasmI64Or, ssa.OpWasmI64Xor, ssa.OpWasmI64Shl, ssa.OpWasmI64ShrS, ssa.OpWasmI64ShrU, ssa.OpWasmI64Rotl,
ssa.OpWasmF32Add, ssa.OpWasmF32Sub, ssa.OpWasmF32Mul, ssa.OpWasmF32Div, ssa.OpWasmF32Copysign,
ssa.OpWasmF64Add, ssa.OpWasmF64Sub, ssa.OpWasmF64Mul, ssa.OpWasmF64Div, ssa.OpWasmF64Copysign:
getValue64(s, v.Args[0])
getValue64(s, v.Args[1])
s.Prog(v.Op.Asm())
case ssa.OpWasmI32Rotl:
getValue32(s, v.Args[0])
getValue32(s, v.Args[1])
s.Prog(wasm.AI32Rotl)
s.Prog(wasm.AI64ExtendI32U)
case ssa.OpWasmI64DivS:
getValue64(s, v.Args[0])
getValue64(s, v.Args[1])
if v.Type.Size() == 8 {
// Division of int64 needs helper function wasmDiv to handle the MinInt64 / -1 case.
p := s.Prog(wasm.ACall)
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: ir.Syms.WasmDiv}
break
}
s.Prog(wasm.AI64DivS)
case ssa.OpWasmI64TruncSatF32S, ssa.OpWasmI64TruncSatF64S:
getValue64(s, v.Args[0])
if buildcfg.GOWASM.SatConv {
s.Prog(v.Op.Asm())
} else {
if v.Op == ssa.OpWasmI64TruncSatF32S {
s.Prog(wasm.AF64PromoteF32)
}
p := s.Prog(wasm.ACall)
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: ir.Syms.WasmTruncS}
}
case ssa.OpWasmI64TruncSatF32U, ssa.OpWasmI64TruncSatF64U:
getValue64(s, v.Args[0])
if buildcfg.GOWASM.SatConv {
s.Prog(v.Op.Asm())
} else {
if v.Op == ssa.OpWasmI64TruncSatF32U {
s.Prog(wasm.AF64PromoteF32)
}
p := s.Prog(wasm.ACall)
p.To = obj.Addr{Type: obj.TYPE_MEM, Name: obj.NAME_EXTERN, Sym: ir.Syms.WasmTruncU}
}
case ssa.OpWasmF32DemoteF64:
getValue64(s, v.Args[0])
s.Prog(v.Op.Asm())
case ssa.OpWasmF64PromoteF32:
getValue64(s, v.Args[0])
s.Prog(v.Op.Asm())
case ssa.OpWasmF32ConvertI64S, ssa.OpWasmF32ConvertI64U,
ssa.OpWasmF64ConvertI64S, ssa.OpWasmF64ConvertI64U,
ssa.OpWasmI64Extend8S, ssa.OpWasmI64Extend16S, ssa.OpWasmI64Extend32S,
ssa.OpWasmF32Neg, ssa.OpWasmF32Sqrt, ssa.OpWasmF32Trunc, ssa.OpWasmF32Ceil, ssa.OpWasmF32Floor, ssa.OpWasmF32Nearest, ssa.OpWasmF32Abs,
ssa.OpWasmF64Neg, ssa.OpWasmF64Sqrt, ssa.OpWasmF64Trunc, ssa.OpWasmF64Ceil, ssa.OpWasmF64Floor, ssa.OpWasmF64Nearest, ssa.OpWasmF64Abs,
ssa.OpWasmI64Ctz, ssa.OpWasmI64Clz, ssa.OpWasmI64Popcnt:
getValue64(s, v.Args[0])
s.Prog(v.Op.Asm())
case ssa.OpLoadReg:
p := s.Prog(loadOp(v.Type))
ssagen.AddrAuto(&p.From, v.Args[0])
case ssa.OpCopy:
getValue64(s, v.Args[0])
default:
v.Fatalf("unexpected op: %s", v.Op)
}
}
func isCmp(v *ssa.Value) bool {
switch v.Op {
case ssa.OpWasmI64Eqz, ssa.OpWasmI64Eq, ssa.OpWasmI64Ne, ssa.OpWasmI64LtS, ssa.OpWasmI64LtU, ssa.OpWasmI64GtS, ssa.OpWasmI64GtU, ssa.OpWasmI64LeS, ssa.OpWasmI64LeU, ssa.OpWasmI64GeS, ssa.OpWasmI64GeU,
ssa.OpWasmF32Eq, ssa.OpWasmF32Ne, ssa.OpWasmF32Lt, ssa.OpWasmF32Gt, ssa.OpWasmF32Le, ssa.OpWasmF32Ge,
ssa.OpWasmF64Eq, ssa.OpWasmF64Ne, ssa.OpWasmF64Lt, ssa.OpWasmF64Gt, ssa.OpWasmF64Le, ssa.OpWasmF64Ge:
return true
default:
return false
}
}
func getValue32(s *ssagen.State, v *ssa.Value) {
if v.OnWasmStack {
s.OnWasmStackSkipped--
ssaGenValueOnStack(s, v, false)
if !isCmp(v) {
s.Prog(wasm.AI32WrapI64)
}
return
}
reg := v.Reg()
getReg(s, reg)
if reg != wasm.REG_SP {
s.Prog(wasm.AI32WrapI64)
}
}
func getValue64(s *ssagen.State, v *ssa.Value) {
if v.OnWasmStack {
s.OnWasmStackSkipped--
ssaGenValueOnStack(s, v, true)
return
}
reg := v.Reg()
getReg(s, reg)
if reg == wasm.REG_SP {
s.Prog(wasm.AI64ExtendI32U)
}
}
func i32Const(s *ssagen.State, val int32) {
p := s.Prog(wasm.AI32Const)
p.From = obj.Addr{Type: obj.TYPE_CONST, Offset: int64(val)}
}
func i64Const(s *ssagen.State, val int64) {
p := s.Prog(wasm.AI64Const)
p.From = obj.Addr{Type: obj.TYPE_CONST, Offset: val}
}
func f32Const(s *ssagen.State, val float64) {
p := s.Prog(wasm.AF32Const)
p.From = obj.Addr{Type: obj.TYPE_FCONST, Val: val}
}
func f64Const(s *ssagen.State, val float64) {
p := s.Prog(wasm.AF64Const)
p.From = obj.Addr{Type: obj.TYPE_FCONST, Val: val}
}
func getReg(s *ssagen.State, reg int16) {
p := s.Prog(wasm.AGet)
p.From = obj.Addr{Type: obj.TYPE_REG, Reg: reg}
}
func setReg(s *ssagen.State, reg int16) {
p := s.Prog(wasm.ASet)
p.To = obj.Addr{Type: obj.TYPE_REG, Reg: reg}
}
func loadOp(t *types.Type) obj.As {
if t.IsFloat() {
switch t.Size() {
case 4:
return wasm.AF32Load
case 8:
return wasm.AF64Load
default:
panic("bad load type")
}
}
switch t.Size() {
case 1:
if t.IsSigned() {
return wasm.AI64Load8S
}
return wasm.AI64Load8U
case 2:
if t.IsSigned() {
return wasm.AI64Load16S
}
return wasm.AI64Load16U
case 4:
if t.IsSigned() {
return wasm.AI64Load32S
}
return wasm.AI64Load32U
case 8:
return wasm.AI64Load
default:
panic("bad load type")
}
}
func storeOp(t *types.Type) obj.As {
if t.IsFloat() {
switch t.Size() {
case 4:
return wasm.AF32Store
case 8:
return wasm.AF64Store
default:
panic("bad store type")
}
}
switch t.Size() {
case 1:
return wasm.AI64Store8
case 2:
return wasm.AI64Store16
case 4:
return wasm.AI64Store32
case 8:
return wasm.AI64Store
default:
panic("bad store type")
}
}