| // Copyright 2009 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 arm64 |
| |
| import ( |
| "cmd/compile/internal/gc" |
| "cmd/internal/obj" |
| "cmd/internal/obj/arm64" |
| "fmt" |
| ) |
| |
| func defframe(ptxt *obj.Prog) { |
| // fill in argument size, stack size |
| ptxt.To.Type = obj.TYPE_TEXTSIZE |
| |
| ptxt.To.Val = int32(gc.Rnd(gc.Curfn.Type.ArgWidth(), int64(gc.Widthptr))) |
| frame := uint32(gc.Rnd(gc.Stksize+gc.Maxarg, int64(gc.Widthreg))) |
| |
| // arm64 requires that the frame size (not counting saved LR) |
| // be empty or be 8 mod 16. If not, pad it. |
| if frame != 0 && frame%16 != 8 { |
| frame += 8 |
| } |
| |
| ptxt.To.Offset = int64(frame) |
| |
| // insert code to zero ambiguously live variables |
| // so that the garbage collector only sees initialized values |
| // when it looks for pointers. |
| p := ptxt |
| |
| hi := int64(0) |
| lo := hi |
| |
| // iterate through declarations - they are sorted in decreasing xoffset order. |
| for _, n := range gc.Curfn.Func.Dcl { |
| if !n.Name.Needzero { |
| continue |
| } |
| if n.Class != gc.PAUTO { |
| gc.Fatalf("needzero class %d", n.Class) |
| } |
| if n.Type.Width%int64(gc.Widthptr) != 0 || n.Xoffset%int64(gc.Widthptr) != 0 || n.Type.Width == 0 { |
| gc.Fatalf("var %v has size %d offset %d", gc.Nconv(n, gc.FmtLong), int(n.Type.Width), int(n.Xoffset)) |
| } |
| |
| if lo != hi && n.Xoffset+n.Type.Width >= lo-int64(2*gc.Widthreg) { |
| // merge with range we already have |
| lo = n.Xoffset |
| |
| continue |
| } |
| |
| // zero old range |
| p = zerorange(p, int64(frame), lo, hi) |
| |
| // set new range |
| hi = n.Xoffset + n.Type.Width |
| |
| lo = n.Xoffset |
| } |
| |
| // zero final range |
| zerorange(p, int64(frame), lo, hi) |
| } |
| |
| var darwin = obj.Getgoos() == "darwin" |
| |
| func zerorange(p *obj.Prog, frame int64, lo int64, hi int64) *obj.Prog { |
| cnt := hi - lo |
| if cnt == 0 { |
| return p |
| } |
| if cnt < int64(4*gc.Widthptr) { |
| for i := int64(0); i < cnt; i += int64(gc.Widthptr) { |
| p = appendpp(p, arm64.AMOVD, obj.TYPE_REG, arm64.REGZERO, 0, obj.TYPE_MEM, arm64.REGSP, 8+frame+lo+i) |
| } |
| } else if cnt <= int64(128*gc.Widthptr) && !darwin { // darwin ld64 cannot handle BR26 reloc with non-zero addend |
| p = appendpp(p, arm64.AMOVD, obj.TYPE_REG, arm64.REGSP, 0, obj.TYPE_REG, arm64.REGRT1, 0) |
| p = appendpp(p, arm64.AADD, obj.TYPE_CONST, 0, 8+frame+lo-8, obj.TYPE_REG, arm64.REGRT1, 0) |
| p.Reg = arm64.REGRT1 |
| p = appendpp(p, obj.ADUFFZERO, obj.TYPE_NONE, 0, 0, obj.TYPE_MEM, 0, 0) |
| f := gc.Sysfunc("duffzero") |
| gc.Naddr(&p.To, f) |
| gc.Afunclit(&p.To, f) |
| p.To.Offset = 4 * (128 - cnt/int64(gc.Widthptr)) |
| } else { |
| p = appendpp(p, arm64.AMOVD, obj.TYPE_CONST, 0, 8+frame+lo-8, obj.TYPE_REG, arm64.REGTMP, 0) |
| p = appendpp(p, arm64.AMOVD, obj.TYPE_REG, arm64.REGSP, 0, obj.TYPE_REG, arm64.REGRT1, 0) |
| p = appendpp(p, arm64.AADD, obj.TYPE_REG, arm64.REGTMP, 0, obj.TYPE_REG, arm64.REGRT1, 0) |
| p.Reg = arm64.REGRT1 |
| p = appendpp(p, arm64.AMOVD, obj.TYPE_CONST, 0, cnt, obj.TYPE_REG, arm64.REGTMP, 0) |
| p = appendpp(p, arm64.AADD, obj.TYPE_REG, arm64.REGTMP, 0, obj.TYPE_REG, arm64.REGRT2, 0) |
| p.Reg = arm64.REGRT1 |
| p = appendpp(p, arm64.AMOVD, obj.TYPE_REG, arm64.REGZERO, 0, obj.TYPE_MEM, arm64.REGRT1, int64(gc.Widthptr)) |
| p.Scond = arm64.C_XPRE |
| p1 := p |
| p = appendpp(p, arm64.ACMP, obj.TYPE_REG, arm64.REGRT1, 0, obj.TYPE_NONE, 0, 0) |
| p.Reg = arm64.REGRT2 |
| p = appendpp(p, arm64.ABNE, obj.TYPE_NONE, 0, 0, obj.TYPE_BRANCH, 0, 0) |
| gc.Patch(p, p1) |
| } |
| |
| return p |
| } |
| |
| func appendpp(p *obj.Prog, as obj.As, ftype obj.AddrType, freg int, foffset int64, ttype obj.AddrType, treg int, toffset int64) *obj.Prog { |
| q := gc.Ctxt.NewProg() |
| gc.Clearp(q) |
| q.As = as |
| q.Lineno = p.Lineno |
| q.From.Type = ftype |
| q.From.Reg = int16(freg) |
| q.From.Offset = foffset |
| q.To.Type = ttype |
| q.To.Reg = int16(treg) |
| q.To.Offset = toffset |
| q.Link = p.Link |
| p.Link = q |
| return q |
| } |
| |
| func ginsnop() { |
| var con gc.Node |
| gc.Nodconst(&con, gc.Types[gc.TINT], 0) |
| gins(arm64.AHINT, &con, nil) |
| } |
| |
| var panicdiv *gc.Node |
| |
| /* |
| * generate division. |
| * generates one of: |
| * res = nl / nr |
| * res = nl % nr |
| * according to op. |
| */ |
| func dodiv(op gc.Op, nl *gc.Node, nr *gc.Node, res *gc.Node) { |
| // Have to be careful about handling |
| // most negative int divided by -1 correctly. |
| // The hardware will generate undefined result. |
| // Also need to explicitly trap on division on zero, |
| // the hardware will silently generate undefined result. |
| // DIVW will leave unpredictable result in higher 32-bit, |
| // so always use DIVD/DIVDU. |
| t := nl.Type |
| |
| t0 := t |
| check := false |
| if t.IsSigned() { |
| check = true |
| if gc.Isconst(nl, gc.CTINT) && nl.Int64() != -(1<<uint64(t.Width*8-1)) { |
| check = false |
| } else if gc.Isconst(nr, gc.CTINT) && nr.Int64() != -1 { |
| check = false |
| } |
| } |
| |
| if t.Width < 8 { |
| if t.IsSigned() { |
| t = gc.Types[gc.TINT64] |
| } else { |
| t = gc.Types[gc.TUINT64] |
| } |
| check = false |
| } |
| |
| a := optoas(gc.ODIV, t) |
| |
| var tl gc.Node |
| gc.Regalloc(&tl, t0, nil) |
| var tr gc.Node |
| gc.Regalloc(&tr, t0, nil) |
| if nl.Ullman >= nr.Ullman { |
| gc.Cgen(nl, &tl) |
| gc.Cgen(nr, &tr) |
| } else { |
| gc.Cgen(nr, &tr) |
| gc.Cgen(nl, &tl) |
| } |
| |
| if t != t0 { |
| // Convert |
| tl2 := tl |
| |
| tr2 := tr |
| tl.Type = t |
| tr.Type = t |
| gmove(&tl2, &tl) |
| gmove(&tr2, &tr) |
| } |
| |
| // Handle divide-by-zero panic. |
| p1 := gins(optoas(gc.OCMP, t), &tr, nil) |
| p1.Reg = arm64.REGZERO |
| p1 = gc.Gbranch(optoas(gc.ONE, t), nil, +1) |
| if panicdiv == nil { |
| panicdiv = gc.Sysfunc("panicdivide") |
| } |
| gc.Ginscall(panicdiv, -1) |
| gc.Patch(p1, gc.Pc) |
| |
| var p2 *obj.Prog |
| if check { |
| var nm1 gc.Node |
| gc.Nodconst(&nm1, t, -1) |
| gcmp(optoas(gc.OCMP, t), &tr, &nm1) |
| p1 := gc.Gbranch(optoas(gc.ONE, t), nil, +1) |
| if op == gc.ODIV { |
| // a / (-1) is -a. |
| gins(optoas(gc.OMINUS, t), &tl, &tl) |
| |
| gmove(&tl, res) |
| } else { |
| // a % (-1) is 0. |
| var nz gc.Node |
| gc.Nodconst(&nz, t, 0) |
| |
| gmove(&nz, res) |
| } |
| |
| p2 = gc.Gbranch(obj.AJMP, nil, 0) |
| gc.Patch(p1, gc.Pc) |
| } |
| |
| p1 = gins(a, &tr, &tl) |
| if op == gc.ODIV { |
| gc.Regfree(&tr) |
| gmove(&tl, res) |
| } else { |
| // A%B = A-(A/B*B) |
| var tm gc.Node |
| gc.Regalloc(&tm, t, nil) |
| |
| // patch div to use the 3 register form |
| // TODO(minux): add gins3? |
| p1.Reg = p1.To.Reg |
| |
| p1.To.Reg = tm.Reg |
| gins(optoas(gc.OMUL, t), &tr, &tm) |
| gc.Regfree(&tr) |
| gins(optoas(gc.OSUB, t), &tm, &tl) |
| gc.Regfree(&tm) |
| gmove(&tl, res) |
| } |
| |
| gc.Regfree(&tl) |
| if check { |
| gc.Patch(p2, gc.Pc) |
| } |
| } |
| |
| /* |
| * generate high multiply: |
| * res = (nl*nr) >> width |
| */ |
| func cgen_hmul(nl *gc.Node, nr *gc.Node, res *gc.Node) { |
| // largest ullman on left. |
| if nl.Ullman < nr.Ullman { |
| nl, nr = nr, nl |
| } |
| |
| t := nl.Type |
| w := t.Width * 8 |
| var n1 gc.Node |
| gc.Cgenr(nl, &n1, res) |
| var n2 gc.Node |
| gc.Cgenr(nr, &n2, nil) |
| switch gc.Simtype[t.Etype] { |
| case gc.TINT8, |
| gc.TINT16, |
| gc.TINT32: |
| gins(optoas(gc.OMUL, t), &n2, &n1) |
| p := gins(arm64.AASR, nil, &n1) |
| p.From.Type = obj.TYPE_CONST |
| p.From.Offset = w |
| |
| case gc.TUINT8, |
| gc.TUINT16, |
| gc.TUINT32: |
| gins(optoas(gc.OMUL, t), &n2, &n1) |
| p := gins(arm64.ALSR, nil, &n1) |
| p.From.Type = obj.TYPE_CONST |
| p.From.Offset = w |
| |
| case gc.TINT64, |
| gc.TUINT64: |
| if t.IsSigned() { |
| gins(arm64.ASMULH, &n2, &n1) |
| } else { |
| gins(arm64.AUMULH, &n2, &n1) |
| } |
| |
| default: |
| gc.Fatalf("cgen_hmul %v", t) |
| } |
| |
| gc.Cgen(&n1, res) |
| gc.Regfree(&n1) |
| gc.Regfree(&n2) |
| } |
| |
| /* |
| * generate shift according to op, one of: |
| * res = nl << nr |
| * res = nl >> nr |
| */ |
| func cgen_shift(op gc.Op, bounded bool, nl *gc.Node, nr *gc.Node, res *gc.Node) { |
| a := optoas(op, nl.Type) |
| |
| if nr.Op == gc.OLITERAL { |
| var n1 gc.Node |
| gc.Regalloc(&n1, nl.Type, res) |
| gc.Cgen(nl, &n1) |
| sc := uint64(nr.Int64()) |
| if sc >= uint64(nl.Type.Width)*8 { |
| // large shift gets 2 shifts by width-1 |
| var n3 gc.Node |
| gc.Nodconst(&n3, gc.Types[gc.TUINT32], nl.Type.Width*8-1) |
| |
| gins(a, &n3, &n1) |
| gins(a, &n3, &n1) |
| } else { |
| gins(a, nr, &n1) |
| } |
| gmove(&n1, res) |
| gc.Regfree(&n1) |
| return |
| } |
| |
| if nl.Ullman >= gc.UINF { |
| var n4 gc.Node |
| gc.Tempname(&n4, nl.Type) |
| gc.Cgen(nl, &n4) |
| nl = &n4 |
| } |
| |
| if nr.Ullman >= gc.UINF { |
| var n5 gc.Node |
| gc.Tempname(&n5, nr.Type) |
| gc.Cgen(nr, &n5) |
| nr = &n5 |
| } |
| |
| // Allow either uint32 or uint64 as shift type, |
| // to avoid unnecessary conversion from uint32 to uint64 |
| // just to do the comparison. |
| tcount := gc.Types[gc.Simtype[nr.Type.Etype]] |
| |
| if tcount.Etype < gc.TUINT32 { |
| tcount = gc.Types[gc.TUINT32] |
| } |
| |
| var n1 gc.Node |
| gc.Regalloc(&n1, nr.Type, nil) // to hold the shift type in CX |
| var n3 gc.Node |
| gc.Regalloc(&n3, tcount, &n1) // to clear high bits of CX |
| |
| var n2 gc.Node |
| gc.Regalloc(&n2, nl.Type, res) |
| |
| if nl.Ullman >= nr.Ullman { |
| gc.Cgen(nl, &n2) |
| gc.Cgen(nr, &n1) |
| gmove(&n1, &n3) |
| } else { |
| gc.Cgen(nr, &n1) |
| gmove(&n1, &n3) |
| gc.Cgen(nl, &n2) |
| } |
| |
| gc.Regfree(&n3) |
| |
| // test and fix up large shifts |
| if !bounded { |
| gc.Nodconst(&n3, tcount, nl.Type.Width*8) |
| gcmp(optoas(gc.OCMP, tcount), &n1, &n3) |
| p1 := gc.Gbranch(optoas(gc.OLT, tcount), nil, +1) |
| if op == gc.ORSH && nl.Type.IsSigned() { |
| gc.Nodconst(&n3, gc.Types[gc.TUINT32], nl.Type.Width*8-1) |
| gins(a, &n3, &n2) |
| } else { |
| gc.Nodconst(&n3, nl.Type, 0) |
| gmove(&n3, &n2) |
| } |
| |
| gc.Patch(p1, gc.Pc) |
| } |
| |
| gins(a, &n1, &n2) |
| |
| gmove(&n2, res) |
| |
| gc.Regfree(&n1) |
| gc.Regfree(&n2) |
| } |
| |
| func clearfat(nl *gc.Node) { |
| /* clear a fat object */ |
| if gc.Debug['g'] != 0 { |
| fmt.Printf("clearfat %v (%v, size: %d)\n", nl, nl.Type, nl.Type.Width) |
| } |
| |
| w := uint64(nl.Type.Width) |
| |
| // Avoid taking the address for simple enough types. |
| if gc.Componentgen(nil, nl) { |
| return |
| } |
| |
| c := w % 8 // bytes |
| q := w / 8 // dwords |
| |
| var r0 gc.Node |
| gc.Nodreg(&r0, gc.Types[gc.TUINT64], arm64.REGZERO) |
| var dst gc.Node |
| |
| // REGRT1 is reserved on arm64, see arm64/gsubr.go. |
| gc.Nodreg(&dst, gc.Types[gc.Tptr], arm64.REGRT1) |
| gc.Agen(nl, &dst) |
| |
| var boff uint64 |
| if q > 128 { |
| p := gins(arm64.ASUB, nil, &dst) |
| p.From.Type = obj.TYPE_CONST |
| p.From.Offset = 8 |
| |
| var end gc.Node |
| gc.Regalloc(&end, gc.Types[gc.Tptr], nil) |
| p = gins(arm64.AMOVD, &dst, &end) |
| p.From.Type = obj.TYPE_ADDR |
| p.From.Offset = int64(q * 8) |
| |
| p = gins(arm64.AMOVD, &r0, &dst) |
| p.To.Type = obj.TYPE_MEM |
| p.To.Offset = 8 |
| p.Scond = arm64.C_XPRE |
| pl := p |
| |
| p = gcmp(arm64.ACMP, &dst, &end) |
| gc.Patch(gc.Gbranch(arm64.ABNE, nil, 0), pl) |
| |
| gc.Regfree(&end) |
| |
| // The loop leaves R16 on the last zeroed dword |
| boff = 8 |
| } else if q >= 4 && !darwin { // darwin ld64 cannot handle BR26 reloc with non-zero addend |
| p := gins(arm64.ASUB, nil, &dst) |
| p.From.Type = obj.TYPE_CONST |
| p.From.Offset = 8 |
| f := gc.Sysfunc("duffzero") |
| p = gins(obj.ADUFFZERO, nil, f) |
| gc.Afunclit(&p.To, f) |
| |
| // 4 and 128 = magic constants: see ../../runtime/asm_arm64x.s |
| p.To.Offset = int64(4 * (128 - q)) |
| |
| // duffzero leaves R16 on the last zeroed dword |
| boff = 8 |
| } else { |
| var p *obj.Prog |
| for t := uint64(0); t < q; t++ { |
| p = gins(arm64.AMOVD, &r0, &dst) |
| p.To.Type = obj.TYPE_MEM |
| p.To.Offset = int64(8 * t) |
| } |
| |
| boff = 8 * q |
| } |
| |
| var p *obj.Prog |
| for t := uint64(0); t < c; t++ { |
| p = gins(arm64.AMOVB, &r0, &dst) |
| p.To.Type = obj.TYPE_MEM |
| p.To.Offset = int64(t + boff) |
| } |
| } |
| |
| // Called after regopt and peep have run. |
| // Expand CHECKNIL pseudo-op into actual nil pointer check. |
| func expandchecks(firstp *obj.Prog) { |
| var p1 *obj.Prog |
| |
| for p := firstp; p != nil; p = p.Link { |
| if gc.Debug_checknil != 0 && gc.Ctxt.Debugvlog != 0 { |
| fmt.Printf("expandchecks: %v\n", p) |
| } |
| if p.As != obj.ACHECKNIL { |
| continue |
| } |
| if gc.Debug_checknil != 0 && p.Lineno > 1 { // p->lineno==1 in generated wrappers |
| gc.Warnl(p.Lineno, "generated nil check") |
| } |
| if p.From.Type != obj.TYPE_REG { |
| gc.Fatalf("invalid nil check %v\n", p) |
| } |
| |
| // check is |
| // CBNZ arg, 2(PC) |
| // MOVD ZR, 0(arg) |
| p1 = gc.Ctxt.NewProg() |
| gc.Clearp(p1) |
| p1.Link = p.Link |
| p.Link = p1 |
| p1.Lineno = p.Lineno |
| p1.Pc = 9999 |
| |
| p.As = arm64.ACBNZ |
| p.To.Type = obj.TYPE_BRANCH |
| p.To.Val = p1.Link |
| |
| // crash by write to memory address 0. |
| p1.As = arm64.AMOVD |
| p1.From.Type = obj.TYPE_REG |
| p1.From.Reg = arm64.REGZERO |
| p1.To.Type = obj.TYPE_MEM |
| p1.To.Reg = p.From.Reg |
| p1.To.Offset = 0 |
| } |
| } |
| |
| // res = runtime.getg() |
| func getg(res *gc.Node) { |
| var n1 gc.Node |
| gc.Nodreg(&n1, res.Type, arm64.REGG) |
| gmove(&n1, res) |
| } |